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At the most basic level, a SIEM system can be rules-based or employ a statistical correlation engine to establish relationships between event log entries. Advanced SIEM products have evolved to include user and entity behavior analytics (UEBA) and security orchestration and automated response (SOAR). \r\nThe acronyms SEM, SIM and SIEM have sometimes been used interchangeably, but generally refer to the different primary focus of products:\r\n<ul><li><span style=\"font-weight: bold;\">Log management:</span> Focus on simple collection and storage of log messages and audit trails.</li><li><span style=\"font-weight: bold;\">Security information management (SIM):</span> Long-term storage as well as analysis and reporting of log data.</li><li><span style=\"font-weight: bold;\">Security event manager (SEM):</span> Real-time monitoring, correlation of events, notifications and console views.</li><li><span style=\"font-weight: bold;\">Security information event management (SIEM):</span> Combines SIM and SEM and provides real-time analysis of security alerts generated by network hardware and applications.</li><li><span style=\"font-weight: bold;\">Managed Security Service (MSS) or Managed Security Service Provider (MSSP):</span> The most common managed services appear to evolve around connectivity and bandwidth, network monitoring, security, virtualization, and disaster recovery.</li><li><span style=\"font-weight: bold;\">Security as a service (SECaaS):</span> These security services often include authentication, anti-virus, anti-malware/spyware, intrusion detection, Penetration testing and security event management, among others.</li></ul>\r\nToday, most of SIEM technology works by deploying multiple collection agents in a hierarchical manner to gather security-related events from end-user devices, servers, network equipment, as well as specialized security equipment like firewalls, antivirus or intrusion prevention systems. The collectors forward events to a centralized management console where security analysts sift through the noise, connecting the dots and prioritizing security incidents.\r\nSome of the most important features to review when evaluating Security Information and Event Management software are:\r\n<ol><li><span style=\"font-weight: bold; \">Integration with other controls:</span> Can the system give commands to other enterprise security controls to prevent or stop attacks in progress?</li><li><span style=\"font-weight: bold; \">Artificial intelligence:</span> Can the system improve its own accuracy by through machine and deep learning?</li><li><span style=\"font-weight: bold; \">Threat intelligence feeds:</span> Can the system support threat intelligence feeds of the organization's choosing or is it mandated to use a particular feed?</li><li><span style=\"font-weight: bold; \">Robust compliance reporting:</span> Does the system include built-in reports for common compliance needs and the provide the organization with the ability to customize or create new compliance reports?</li><li><span style=\"font-weight: bold; \">Forensics capabilities:</span> Can the system capture additional information about security events by recording the headers and contents of packets of interest? </li></ol>\r\n\r\n\r\n","materialsDescription":"<h1 class=\"align-center\"> Why is SIEM Important?</h1>\r\nSIEM has become a core security component of modern organizations. The main reason is that every user or tracker leaves behind a virtual trail in a network’s log data. SIEM software is designed to use this log data in order to generate insight into past attacks and events. A SIEM solution not only identifies that an attack has happened, but allows you to see how and why it happened as well.\r\nAs organizations update and upscale to increasingly complex IT infrastructures, SIEM has become even more important in recent years. Contrary to popular belief, firewalls and antivirus packages are not enough to protect a network in its entirety. Zero-day attacks can still penetrate a system’s defenses even with these security measures in place.\r\nSIEM addresses this problem by detecting attack activity and assessing it against past behavior on the network. A security event monitoring has the ability to distinguish between legitimate use and a malicious attack. This helps to increase a system’s incident protection and avoid damage to systems and virtual property.\r\nThe use of SIEM also helps companies to comply with a variety of industry cyber management regulations. Log management is the industry standard method of auditing activity on an IT network. SIEM management provides the best way to meet this regulatory requirement and provide transparency over logs in order to generate clear insights and improvements.\r\n<h1 class=\"align-center\">Evaluation criteria for security information and event management software:</h1>\r\n<ul><li>Threat identification: Raw log form vs. descriptive.</li><li>Threat tracking: Ability to track through the various events, from source to destination.</li><li>Policy enforcement: Ability to enforce defined polices.</li><li>Application analysis: Ability to analyze application at Layer 7 if necessary.</li><li>Business relevance of events: Ability to assign business risk to events and have weighted threat levels.</li><li>Measuring changes and improvements: Ability to track configuration changes to devices.</li><li>Asset-based information: Ability to gather information on devices on the network.</li><li>Anomalous behavior (server): Ability to trend and see changes in how it communicates to others.</li><li>Anomalous behavior (network): Ability to trend and see how communications pass throughout the network.</li><li>Anomalous behavior (application): Ability to trend and see changes in how it communicates to others.</li><li>User monitoring: User activity, logging in, applications usage, etc.</li></ul>\r\n\r\n","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_SIEM.png","alias":"siem-security-information-and-event-management"},"59":{"id":59,"title":"SCADA - Supervisory Control And Data Acquisition","description":"<span style=\"font-weight: bold; \">SCADA</span> stands for <span style=\"font-weight: bold; \">Supervisory Control and Data Acquisition</span>, a term which describes the basic functions of a SCADA system. Companies use SCADA systems to control equipment across their sites and to collect and record data about their operations. SCADA is not a specific technology, but a type of application. Any application that gets operating data about a system in order to control and optimise that system is a SCADA application. That application may be a petrochemical distillation process, a water filtration system, a pipeline compressor, or just about anything else.\r\nSCADA solutions typically come in a combination of software and hardware elements, such as programmable logic controllers (PLCs) and remote terminal units (RTUs). Data acquisition in SCADA starts with PLCs and RTUs, which communicate with plant floor equipment such as factory machinery and sensors. Data gathered from the equipment is then sent to the next level, such as a control room, where operators can supervise the PLC and RTU controls using human-machine interfaces (HMIs). HMIs are an important element of SCADA systems. They are the screens that operators use to communicate with the SCADA system.\r\n<p class=\"align-center\"><span style=\"font-weight: bold; \">The major components of a SCADA technology include:</span></p>\r\n<ul><li><span style=\"font-weight: bold;\">Master Terminal Unit (MTU).</span> It comprises a computer, PLC and a network server that helps MTU to communicate with the RTUs. MTU begins communication, collects and saves data, helps to interface with operators and to communicate data to other systems.</li><li><span style=\"font-weight: bold;\">Remote Terminal Unit (RTU).</span> RTU is used to collect information from these sensors and further sends the data to MTU. RTUs have the storage capacity facility. So, it stores the data and transmits the data when MTU sends the corresponding command.</li><li><span style=\"font-weight: bold;\">Communication Network (defined by its network topology).</span> In general, network means connection. When you tell a SCADA communication network, it is defined as a link between RTU in the field to MTU in the central location. The bidirectional wired or wireless communication channel is used for the networking purpose. Various other communication mediums like fiber optic cables, twisted pair cables, etc. are also used.</li></ul>\r\n<p class=\"align-center\"><span style=\"font-weight: bold; \">Objectives of Supervisory Control and Data Acquisition system</span></p>\r\n<ul><li><span style=\"font-weight: bold;\">Monitor:</span> SCADA control system continuously monitors the physical parameters</li><li><span style=\"font-weight: bold;\">Measure:</span> It measures the parameter for processing</li><li><span style=\"font-weight: bold;\">Data Acquisition:</span> It acquires data from RTU, data loggers, etc</li><li><span style=\"font-weight: bold;\">Data Communication:</span> It helps to communicate and transmit a large amount of data between MTU and RTU units</li><li><span style=\"font-weight: bold;\">Controlling:</span> Online real-time monitoring and controlling of the process</li><li><span style=\"font-weight: bold;\">Automation:</span> It helps for automatic transmission and functionality</li></ul>\r\n\r\n","materialsDescription":"<h1 class=\"align-center\">Who Uses SCADA?</h1>\r\nSCADA systems are used by industrial organizations and companies in the public and private sectors to control and maintain efficiency, distribute data for smarter decisions, and communicate system issues to help mitigate downtime. Supervisory control systems work well in many different types of enterprises because they can range from simple configurations to large, complex installations. They are the backbone of many modern industries, including:\r\n<ul><li>Energy</li><li>Food and beverage</li><li>Manufacturing</li><li>Oil and gas</li><li>Power</li><li>Recycling</li><li>Transportation</li><li>Water and waste water</li><li>And many more</li></ul>\r\nVirtually anywhere you look in today's world, there is some type of SCADA monitoring system running behind the scenes: maintaining the refrigeration systems at the local supermarket, ensuring production and safety at a refinery, achieving quality standards at a waste water treatment plant, or even tracking your energy use at home, to give a few examples. Effective SCADA systems can result in significant savings of time and money. Numerous case studies have been published highlighting the benefits and savings of using a modern SCADA software.\r\n<h1 class=\"align-center\">Benefits of using SCADA software</h1>\r\nUsing modern SCADA software provides numerous benefits to businesses, and helps companies make the most of those benefits. Some of these advantages include:\r\n<span style=\"font-weight: bold; \">Easier engineering:</span> An advanced supervisory control application such provides easy-to-locate tools, wizards, graphic templates and other pre-configured elements, so engineers can create automation projects and set parameters quickly, even if they don't have programming experience. In addition, you can also easily maintain and expand existing applications as needed. The ability to automate the engineering process allows users, particularly system integrators and original equipment manufacturers (OEM), to set up complex projects much more efficiently and accurately.\r\n<span style=\"font-weight: bold; \">Improved data management:</span> A high-quality SCADA system makes it easier to collect, manage, access and analyze your operational data. It can enable automatic data recording and provide a central location for data storage. Additionally, it can transfer data to other systems such as MES and ERP as needed. \r\n<span style=\"font-weight: bold; \">Greater visibility:</span> One of the main advantages of using SCADA software is the improvement in visibility into your operations. It provides you with real-time information about your operations and enables you to conveniently view that information via an HMI. SCADA monitoring can also help in generating reports and analyzing data.\r\n<span style=\"font-weight: bold; \">Enhanced efficiency:</span> A SCADA system allows you to streamline processes through automated actions and user-friendly tools. The data that SCADA provides allows you to uncover opportunities for improving the efficiency of the operations, which can be used to make long-term changes to processes or even respond to real-time changes in conditions.\r\n<span style=\"font-weight: bold; \">Increased usability:</span> SCADA systems enable workers to control equipment more quickly, easily and safely through an HMI. Rather than having to control each piece of machinery manually, workers can manage them remotely and often control many pieces of equipment from a single location. Managers, even those who are not currently on the floor, also gain this capability.\r\n<span style=\"font-weight: bold; \">Reduced downtime:</span> A SCADA system can detect faults at an early stage and push instant alerts to the responsible personnel. Powered by predictive analytics, a SCADA system can also inform you of a potential issue of the machinery before it fails and causes larger problems. These features can help improve the overall equipment effectiveness (OEE) and reduce the amount of time and cost on troubleshooting and maintenance.\r\n<span style=\"font-weight: bold;\">Easy integration:</span> Connectivity to existing machine environments is key to removing data silos and maximizing productivity. \r\n<span style=\"font-weight: bold;\">Unified platform:</span>All of your data is also available in one platform, which helps you to get a clear overview of your operations and take full advantage of your data. All users also get real-time updates locally or remotely, ensuring everyone on your team is on the same page.<br /><br />","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/SCADA__-_Supervisory_Control_And_Data_Acquisition.png","alias":"scada-supervisory-control-and-data-acquisition"},"77":{"id":77,"title":"SOC - Situation Centre","description":"One of the most pressing tasks facing government bodies and commercial structures is to increase the efficiency of management activities. A modern tool for solving this problem is situational centers, which are complex hardware and software systems for collecting, analyzing and displaying information in a form convenient for making critical decisions.\r\nSituational centers are created for the heads of federal, regional and municipal government bodies, ministries and departments, and large companies. Their main task is to provide information and analytical support for procedures and processes that allow managers to make effective decisions on the current management of headed structures, formulating their development strategies, as well as preventing or eliminating crisis and emergency situations. The structure and composition of the situational site are determined by the specifics of the tasks being solved. As a rule, this is a complex technical complex that includes many subsystems.\r\nThere are many types of command centers. They include: data center management, business application management, civil management, emergency (crisis) management.","materialsDescription":" <span style=\"font-weight: bold;\">What is a Security Operations Center (SOC)?</span>\r\nA SOC is an outsourced office that is completely dedicated to analyzing traffic flow and monitoring for threats and attacks. In today’s world of cyberattacks and data breaches, companies of all sizes need to place an emphasis on securing their technology assets. But due to budget constraints and competing priorities, many organizations can’t afford to employ a full-time in-house IT security team. The smart solution to this problem is to look at partnering with a SOC or security operations center.\r\n<span style=\"font-weight: bold;\">How does a security operations center work?</span>\r\nUntil the recent rise of cloud computing, standard security practice was for a company to choose a traditional software as a product (SaaP) malware scanning solution either via download or, in ancient days, a CD-Rom that arrived via mail. They’d add to that a firewall installed at the edge of the network, and trust that those measures would keep their data and systems safe. Today’s reality is a far different environment, with threats being cast all across the net as hackers invent new ways to launch profitable and sophisticated attacks like ransomware.\r\nA SOC is an example of the software as a service (SaaS) software model in that it operates in the cloud as a subscription service. In this context, it provides a layer of rented expertise to a company’s cybersecurity strategy that operates 24/7 so that networks and endpoints are constantly being monitored. If a vulnerability is found or an incident is discovered, the SOC will engage with the on-site IT team to respond to the issue and investigate the root cause.\r\nIndividual SOC cybersecurity providers offer different suites of products and services. However, there is a core set of operational functions that a SOC must perform in order to add value to an organization.\r\n<ol><li><span style=\"font-weight: bold;\">Asset Survey:</span> In order for a SOC to help a company stay secure, they must have a complete understanding of what resources they need to protect. Otherwise, they may not be able to protect the full scope of the network. An asset survey should identify every server, router, firewall under enterprise control, as well as any other cybersecurity tools actively in use.</li><li><span style=\"font-weight: bold;\">Log Collection:</span> Data is the most important thing for a SOC to function properly and logs serve as the key source of information regarding network activity. The SOC should set up direct feeds from enterprise systems so that data is collected in real-time. Obviously, humans cannot digest such large amounts of information, which is why log scanning tools powered by artificial intelligence algorithms are so valuable for SOCs, though they do pose some interesting side effects that humanity is still trying to iron out.</li><li><span style=\"font-weight: bold;\">Preventative Maintenance:</span> In the best-case scenario, the SOC is able to prevent cyberattacks from occurring by being proactive with their processes. This includes installing security patches and adjusting firewall policies on a regular basis. Since some cyberattacks actually begin as insider threats, a SOC must also look within the organization for risks also.</li><li><span style=\"font-weight: bold;\">Continuous Monitoring:</span> In order to be ready to respond to a cybersecurity incident, the SOC must be vigilant in its monitoring practices. A few minutes can be the difference between blocking an attack and letting it take down an entire system or website. SOC tools run scans across the company’s network to identify potential threats and other suspicious activity.</li><li><span style=\"font-weight: bold;\">Alert Management:</span> Automated systems are great at finding patterns and following scripts. But the human element of a SOC proves it's worth it when it comes to analyzing automated alerts and ranking them based on their severity and priority. SOC staff must know what responses to take and how to verify that an alert is legitimate.</li><li><span style=\"font-weight: bold;\">Root Cause Analysis:</span> After an incident occurs and is resolved, the job of the SOC is just beginning. Cybersecurity experts will analyze the root cause of the problem and diagnose why it occurred in the first place. This feeds into a process of continuous improvement, with security tools and rules being modified to prevent future occurrences of the same incident.</li><li><span style=\"font-weight: bold;\">Compliance Audits:</span> Companies want to know that their data and systems are safe but also that they are being managed in a lawful manner. SOC providers must perform regular audits to confirm their compliance in the regions where they operate. What is a SOC report and what is a SOC audit? Anything that pulls data or records from cybersecurity functions of an organization. What is SOC 2? It’s a special auditing procedure related to information security and privacy.</li></ol>","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/SOC_-_Situation_Centre.png","alias":"soc-situation-centre"},"79":{"id":79,"title":"VM - Vulnerability management","description":"Vulnerability management is the "cyclical practice of identifying, classifying, prioritizing, remediating and mitigating" software vulnerabilities. Vulnerability management is integral to computer security and network security, and must not be confused with a Vulnerability assessment.\r\nVulnerability management is an ongoing process that includes proactive asset discovery, continuous monitoring, mitigation, remediation and defense tactics to protect your organization's modern IT attack surface from Cyber Exposure.\r\nVulnerabilities can be discovered with a vulnerability scanner, which analyzes a computer system in search of known vulnerabilities, such as open ports, insecure software configurations, and susceptibility to malware infections. They may also be identified by consulting public sources, such as NVD, or subscribing to a commercial vulnerability alerting services. Unknown vulnerabilities, such as a zero-day, may be found with fuzz testing, which can identify certain kinds of vulnerabilities, such as a buffer overflow with relevant test cases. Such analysis can be facilitated by test automation. In addition, antivirus software capable of heuristic analysis may discover undocumented malware if it finds software behaving suspiciously (such as attempting to overwrite a system file).\r\nCorrecting vulnerabilities may variously involve the installation of a patch, a change in network security policy, reconfiguration of software, or educating users about social engineering.\r\nNetwork vulnerabilities represent security gaps that could be abused by attackers to damage network assets, trigger a denial of service, and/or steal potentially sensitive information. Attackers are constantly looking for new vulnerabilities to exploit — and taking advantage of old vulnerabilities that may have gone unpatched.\r\nHaving a vulnerability management framework in place that regularly checks for new vulnerabilities is crucial for preventing cybersecurity breaches. Without a vulnerability testing and patch management system, old security gaps may be left on the network for extended periods of time. This gives attackers more of an opportunity to exploit vulnerabilities and carry out their attacks.\r\nOne statistic that highlights how crucial vulnerability management was featured in an Infosecurity Magazine article. According to survey data cited in the article, of the organizations that “suffered a breach, almost 60% were due to an unpatched vulnerability.” In other words, nearly 60% of the data breaches suffered by survey respondents could have been easily prevented simply by having a vulnerability management plan that would apply critical patches before attackers leveraged the vulnerability.","materialsDescription":" <span style=\"font-weight: bold;\">What is vulnerability management?</span>\r\nVulnerability management is a pro-active approach to managing network security by reducing the likelihood that flaws in code or design compromise the security of an endpoint or network.\r\n<span style=\"font-weight: bold;\">What processes does vulnerability management include?</span>\r\nVulnerability management processes include:\r\n<ul><li><span style=\"font-style: italic;\">Checking for vulnerabilities:</span> This process should include regular network scanning, firewall logging, penetration testing or use of an automated tool like a vulnerability scanner.</li><li><span style=\"font-style: italic;\">Identifying vulnerabilities:</span> This involves analyzing network scans and pen test results, firewall logs or vulnerability scan results to find anomalies that suggest a malware attack or other malicious event has taken advantage of a security vulnerability, or could possibly do so.</li><li><span style=\"font-style: italic;\">Verifying vulnerabilities:</span> This process includes ascertaining whether the identified vulnerabilities could actually be exploited on servers, applications, networks or other systems. This also includes classifying the severity of a vulnerability and the level of risk it presents to the organization.</li><li><span style=\"font-style: italic;\">Mitigating vulnerabilities:</span> This is the process of figuring out how to prevent vulnerabilities from being exploited before a patch is available, or in the event that there is no patch. It can involve taking the affected part of the system off-line (if it's non-critical), or various other workarounds.</li><li><span style=\"font-style: italic;\">Patching vulnerabilities:</span> This is the process of getting patches -- usually from the vendors of the affected software or hardware -- and applying them to all the affected areas in a timely way. This is sometimes an automated process, done with patch management tools. This step also includes patch testing.</li></ul>","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/VM_-_Vulnerability_management1.png","alias":"vm-vulnerability-management"},"212":{"id":212,"title":"Integration and Process Automation Middleware","description":" Business process automation (BPA), also known as business automation or digital transformation, is the technology-enabled automation of complex business processes. It can streamline a business for simplicity, achieve digital transformation, increase service quality, improve service delivery or contain costs. It consists of integrating applications, restructuring labor resources and using software applications throughout the organization. Robotic process automation is an emerging field within BPA and uses artificial intelligence.\r\nBPAs can be implemented in a number of business areas including marketing, sales and workflow. Toolsets vary in sophistication, but there is an increasing trend towards the use of artificial intelligence technologies that can understand natural language and unstructured data sets, interact with human beings, and adapt to new types of problems without human-guided training. BPA providers tend to focus on different industry sectors but their underlying approach tends to be similar in that they will attempt to provide the shortest route to automation by exploiting the user interface layer rather than going deeply into the application code or databases sitting behind them. They also simplify their own interface to the extent that these tools can be used directly by non-technically qualified staff. The main advantage of these toolsets is, therefore, their speed of deployment, the drawback is that it brings yet another IT supplier to the organization.","materialsDescription":" <span style=\"font-weight: bold;\">What is the difference between RPA and automation?</span>\r\nRPA is a software robot that mimics human actions, whereas AI is the simulation of human intelligence by machines.\r\n<span style=\"font-weight: bold;\">What are the types of automation?</span>\r\nAutomated production systems can be classified into three basic types:\r\n<ol><li>Fixed automation,</li><li>Programmable automation,</li><li>Flexible automation.</li></ol>","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/Integration_and_Process_Automation_Middleware.png","alias":"integration-and-process-automation-middleware"},"465":{"id":465,"title":"UEBA - User and Entity Behavior Analytics","description":"Developments in UBA technology led Gartner to evolve the category to user and entity behavior analytics (UEBA). In September 2015, Gartner published the Market Guide for User and Entity Analytics by Vice President and Distinguished Analyst, Avivah Litan, that provided a thorough definition and explanation. UEBA was referred to in earlier Gartner reports but not in much depth. Expanding the definition from UBA includes devices, applications, servers, data, or anything with an IP address. It moves beyond the fraud-oriented UBA focus to a broader one encompassing "malicious and abusive behavior that otherwise went unnoticed by existing security monitoring systems, such as SIEM and DLP." The addition of "entity" reflects that devices may play a role in a network attack and may also be valuable in uncovering attack activity. "When end users have been compromised, malware can lay dormant and go undetected for months. Rather than trying to find where the outsider entered, UEBAs allow for quicker detection by using algorithms to detect insider threats."\r\nParticularly in the computer security market, there are many vendors for UEBA applications. They can be "differentiated by whether they are designed to monitor on-premises or cloud-based software as a service (SaaS) applications; the methods in which they obtain the source data; the type of analytics they use (i.e., packaged analytics, user-driven or vendor-written), and the service delivery method (i.e., on-premises or a cloud-based)." According to the 2015 market guide released by Gartner, "the UEBA market grew substantially in 2015; UEBA vendors grew their customer base, market consolidation began, and Gartner client interest in UEBA and security analytics increased." The report further projected, "Over the next three years, leading UEBA platforms will become preferred systems for security operations and investigations at some of the organizations they serve. It will be—and in some cases already is—much easier to discover some security events and analyze individual offenders in UEBA than it is in many legacy security monitoring systems."","materialsDescription":"<span style=\"font-weight: bold;\">What is UEBA?</span>\r\nHackers can break into firewalls, send you e-mails with malicious and infected attachments, or even bribe an employee to gain access into your firewalls. Old tools and systems are quickly becoming obsolete, and there are several ways to get past them.\r\nUser and entity behavior analytics (UEBA) give you more comprehensive way of making sure that your organization has top-notch IT security, while also helping you detect users and entities that might compromise your entire system.\r\nUEBA is a type of cybersecurity process that takes note of the normal conduct of users. In turn, they detect any anomalous behavior or instances when there are deviations from these “normal” patterns. For example, if a particular user regularly downloads 10 MB of files every day but suddenly downloads gigabytes of files, the system would be able to detect this anomaly and alert them immediately.\r\nUEBA uses machine learning, algorithms, and statistical analyses to know when there is a deviation from established patterns, showing which of these anomalies could result in, potentially, a real threat. UEBA can also aggregate the data you have in your reports and logs, as well as analyze the file, flow, and packet information.\r\nIn UEBA, you do not track security events or monitor devices; instead, you track all the users and entities in your system. As such, UEBA focuses on insider threats, such as employees who have gone rogue, employees who have already been compromised, and people who already have access to your system and then carry out targeted attacks and fraud attempts, as well as servers, applications, and devices that are working within your system.\r\n<span style=\"font-weight: bold;\">What are the benefits of UEBA?</span>\r\nIt is the unfortunate truth that today's cybersecurity tools are fast becoming obsolete, and more skilled hackers and cyber attackers are now able to bypass the perimeter defenses that are used by most companies. In the old days, you were secure if you had web gateways, firewalls, and intrusion prevention tools in place. This is no longer the case in today’s complex threat landscape, and it’s especially true for bigger corporations that are proven to have very porous IT perimeters that are also very difficult to manage and oversee.\r\nThe bottom line? Preventive measures are no longer enough. Your firewalls are not going to be 100% foolproof, and hackers and attackers will get into your system at one point or another. This is why detection is equally important: when hackers do successfully get into your system, you should be able to detect their presence quickly in order to minimize the damage.\r\n<span style=\"font-weight: bold;\">How Does UEBA Work?</span>\r\nThe premise of UEBA is actually very simple. You can easily steal an employee’s user name and password, but it is much harder to mimic the person’s normal behavior once inside the network.\r\nFor example, let’s say you steal Jane Doe’s password and user name. You would still not be able to act precisely like Jane Doe once in the system unless given extensive research and preparation. Therefore, when Jane Doe’s user name is logged in to the system, and her behavior is different than that of typical Jane Doe, that is when UEBA alerts start to sound.\r\nAnother relatable analogy would be if your credit card was stolen. A thief can pickpocket your wallet and go to a high-end shop and start spending thousands of dollars using your credit card. If your spending pattern on that card is different from the thief’s, the company’s fraud detection department will often recognize the abnormal spending and block suspicious purchases, issuing an alert to you or asking you to verify the authenticity of a transaction.\r\nAs such, UEBA is a very important component of IT security, allowing you to:\r\n1. Detect insider threats. It is not too far-fetched to imagine that an employee, or perhaps a group of employees, could go rogue, stealing data and information by using their own access. UEBA can help you detect data breaches, sabotage, privilege abuse and policy violations made by your own staff.\r\n2. Detect compromised accounts. Sometimes, user accounts are compromised. It could be that the user unwittingly installed malware on his or her machine, or sometimes a legitimate account is spoofed. UEBA can help you weed out spoofed and compromised users before they can do real harm.\r\n3. Detect brute-force attacks. Hackers sometimes target your cloud-based entities as well as third-party authentication systems. With UEBA, you are able to detect brute-force attempts, allowing you to block access to these entities.\r\n4. Detect changes in permissions and the creation of super users. Some attacks involve the use of super users. UEBA allows you to detect when super users are created, or if there are accounts that were granted unnecessary permissions.\r\n5. Detect breach of protected data. If you have protected data, it is not enough to just keep it secure. You should know when a user accesses this data when he or she does not have any legitimate business reason to access it.","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_User_and_Entity_Behavior_Analytics.png","alias":"ueba-user-and-entity-behavior-analytics"},"791":{"id":791,"title":"Vulnerability Scanner","description":" A <span style=\"font-weight: bold;\">vulnerability scanner</span> is a computer program designed to assess computers, network vulnerability or applications for known weaknesses. In plain words, these scanners are used to discover the weaknesses of a given system. They are utilized in the identification and detection of vulnerabilities arising from mis-configurations or flawed programming within a network-based asset such as a firewall, router, web server, application server, etc. They are typically available as SaaS (Software as a service); provided over the internet and delivered as a web application. \r\nMost vulnerability scanners will also attempt to log in to systems using default or other credentials in order to build a more detailed picture of the system. After building up an inventory, the vulnerability scanner checks each item in the inventory against one or more databases of known vulnerabilities to see if any items are subject to any of these vulnerabilities. The result of such scan is a systems vulnerability analysis, highlighting any that have known vulnerabilities that may need threat and vulnerability management.\r\n<span style=\"font-weight: bold;\">How vulnerability scanning works</span>. Vulnerability scanning finds systems and software that have known security vulnerabilities, but this information is only useful to IT security teams when it is used as the first part of a four-part vulnerability management process. <span style=\"font-weight: bold;\">Vulnerability management process involves:</span>\r\n<ul><li>Identification of vulnerabilities</li><li>Evaluation of the risk posed by any vulnerabilities identified</li><li>Treatment of any identified vulnerabilities</li><li>Reporting on vulnerabilities and how they have been handled</li></ul>\r\n<br /><span style=\"font-weight: bold;\">Types of vulnerability scans. </span>Not all vulnerability scans are alike, and to ensure compliance with certain regulations (such as those set by the PCI Security Standards Council) it is necessary to carry out two distinct types of vulnerability scans: an internal and an external vulnerability scan. \r\n<span style=\"font-weight: bold;\">External vulnerability scan.</span> As the name suggests, an external vulnerability scan is carried out from outside an organization's network, and its principal purpose is to detect vulnerabilities in the perimeter defenses such as open ports in the network firewall or specialized web application firewall. An external vulnerability scan can help organizations fix security issues that could enable hackers to gain access to the organization's network.\r\n<span style=\"font-weight: bold;\">Internal vulnerability scan. </span>By contrast, an internal vulnerability scan is carried out from inside an organization's perimeter defenses. Its purpose is to detect vulnerabilities that could be exploited by hackers who successfully penetrate the perimeter defenses, or equally by "insider threats" such as contractors or disgruntled employees who have legitimate access to parts of the network.\r\n<span style=\"font-weight: bold;\">Unauthenticated and authenticated vulnerability scans.</span> A similar but not always identical variation of internal and external vulnerability scans is the concept of unauthenticated and authenticated vulnerability scans. Unauthenticated scans, like external scans, search for weaknesses in the network perimeter, while authenticated scans provide vulnerability scanners with various privileged credentials, allowing them to probe the inside of the network for weak passwords, configuration issues, and misconfigured databases or applications.<br /><br />","materialsDescription":"<h1 class=\"align-center\">What is Vulnerability Assessment?</h1>\r\nVulnerability Assessment is also known as Vulnerability Testing, is a vulnerability scanning software performed to evaluate the security risks in the software system in order to reduce the probability of a threat. Vulnerability Analysis depends upon two mechanisms namely Vulnerability Assessment and Penetration Testing (VAPT).\r\n<p class=\"align-center\"><span style=\"font-weight: bold;\">Types of a vulnerability scanner:</span></p>\r\n<span style=\"font-weight: bold;\">Host Based. </span>Identifies the issues in the host or the system. The process is carried out by using host-based scanners and diagnose the vulnerabilities. The host-based tools will load a mediator software onto the target system; it will trace the event and report it to the security analyst.\r\n<span style=\"font-weight: bold;\">Network-Based.</span> It will detect the open port, and identify the unknown services running on these ports. Then it will disclose possible vulnerabilities associated with these services. This process is done by using Network-based Scanners.\r\n<span style=\"font-weight: bold;\">Database-Based.</span> It will identify the security exposure in the database systems using tools and techniques to prevent from SQL Injections. (SQL Injections: - Injecting SQL statements into the database by the malicious users, which can read the sensitive data's from a database and can update the data in the Database.)\r\n<h1 class=\"align-center\">How vulnerability scanners works?</h1>\r\nVulnerability scanning is an inspection of the potential points of exploit on a computer or network to identify security holes.\r\nA security scan detects and classifies system weaknesses in computers, networks and communications equipment and predicts the effectiveness of countermeasures. A scan may be performed by an organization’s IT department or a security service provide, possibly as a condition imposed by some authority. Vulnerability scans are also used by attackers looking for points of entry.\r\nA vulnerability scanner runs from the end point of the person inspecting the attack surface in question. The software compares details about the target attack surface to a database of information about known security holes in services and ports, anomalies in packet construction, and potential paths to exploitable programs or scripts. The scanner software attempts to exploit each vulnerability that is discovered.\r\nRunning a vulnerability scan can pose its own risks as it is inherently intrusive on the target machine’s running code. As a result, the scan can cause issues such as errors and reboots, reducing productivity.\r\n<h1 class=\"align-center\">How to choose the best vulnerability scanning tool?</h1>\r\nWhen researching vulnerability scanners, it's important to find out how they're rated for accuracy (the most important metric) as well as reliability, scalability and reporting. If accuracy is lacking, you'll end up running two different scanners, hoping that one picks up vulnerabilities that the other misses. This adds cost and effort to the scanning process. \r\n<span style=\"font-weight: bold;\">Software-Based Vulnerability Scanners.</span> These types of scanning products generally include configuration auditing, target profiling, penetration testing and detailed vulnerability analysis. They integrate with Windows products, such as Microsoft System Center, to provide intelligent patch management; some work with mobile device managers. They can scan not only physical network devices, servers and workstations, but extend to virtual machines, BYOD mobile devices and databases.\r\n<span style=\"font-weight: bold;\">Cloud-Based Vulnerability Scanners: </span>Continuous, On-Demand Monitoring. A newer type of vulnerability finder is delivered on-demand as Software as a Service (SaaS). Like software-based scanners, on-demand scanners incorporate links for downloading vendor patches and updates for identified vulnerabilities, reducing remediation effort. These services also include scanning thresholds to prevent overloading devices during the scanning process, which can cause devices to crash.\r\n<h1 class=\"align-center\">What is mobile application security scanner?</h1>\r\nMobile application security testing can help ensure there aren’t any loopholes in the software that may cause data loss. The sets of tests are meant to attack the app to identify possible threats and vulnerabilities that would allow external persons or systems to access private information stored on the mobile device. \r\nMobile application vulnerability scanner can help to ensure that applications are free from the flaws and weaknesses that hackers use to gain access to sensitive information. From backdoors, malicious code and other threats, these flaws may be present both in commercial and open source applications as well as software developed in-house.","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_Vulnerability_Scanner.png","alias":"vulnerability-scanner"},"793":{"id":793,"title":"Web Application Vulnerability Scanner","description":" A <span style=\"font-weight: bold; \">web application vulnerability scanner,</span> also known as a <span style=\"font-weight: bold; \">web application security scanner,</span> is an automated security tool. It scans web applications for malware, vulnerabilities, and logical flaws. Web application scanner use black box tests, as these tests do not require access to the source code but instead launch external attacks to test for security vulnerabilities. These simulated attacks can detect path traversal, cross-site scripting(XSS), and command injection.\r\nWeb app scanners are categorized as <span style=\"font-weight: bold; \">Dynamic Application Security Testing (DAST) tools.</span> DAST tools provide insight into how your web applications behave while they are in production, enabling your business to address potential vulnerabilities before a hacker uses them to stage an attack. As your web applications evolve, DAST solutions continue to scan them so that your business can promptly identify and remediate emerging issues before they develop into serious risks.\r\nWeb app vulnerability scanner first crawls the entire website, analyzing in-depth each file it finds, and displaying the entire website structure. After this discovery stage, it performs an automatic audit for common security vulnerabilities by launching a series of Web attacks. Web application scanners check for vulnerabilities on the Web server, proxy server, Web application server and even on other Web services. Unlike source code scanners, web application scanners don't have access to the source code and therefore detect vulnerabilities by actually performing attacks.\r\nA web application vulnerability assessment is very different than a general vulnerability assessment where security focus on networks and hosts. App vulnerability scanner scans ports, connect to services, and use other techniques to gather information revealing the patch levels, configurations, and potential exposures of our infrastructure.\r\nAutomated web application scanning tools help the user making sure the whole website is properly crawled, and that no input or parameter is left unchecked. Automated web vulnerability scanners also help in finding a high percentage of the technical vulnerabilities, and give you a very good overview of the website’s structure, and security status. \r\nThe best way to identify web application security threats is to perform web application vulnerability assessment. The importance of these threats could leave your organization exposed if they are not properly identified and mitigated. Therefore, implementing a web app security scanner solution should be of paramount importance for your organizations security plans in the future. \r\n\r\n","materialsDescription":"<h1 class=\"align-center\">Why Web Application Vulnerability Scanning is important?</h1>\r\nWeb applications are the technological base of modern companies. That’s why more and more businesses are betting on the development of this type of digital platforms. They stand out because they allow to automate processes, simplify tasks, be more efficient and offer a better service to the customer.<br /><br />The objective of web applications is that the user completes a task, be it buying, making a bank transaction, accessing e-mail, editing photos, texts, among many other things. In fact, they are very useful for an endless number of services, hence their popularity. Their disadvantages are few, but there is one that requires special attention: vulnerabilities.\r\n<p class=\"align-center\"><span style=\"font-weight: bold; \">Main web application security risks</span></p>\r\nA web vulnerability scanner tools will help you keep your services protected. However, it is important to be aware of the major security risks that exist so that both developers and security professionals are always alert and can find the most appropriate solutions in a timely manner.\r\n<ul><li><span style=\"font-weight: bold; \">Injection</span></li></ul>\r\nThis is a vulnerability that affects the application databases. They occur when unreliable data is sent to an interpreter by means of a command or query. The attacker may inject malicious code to disrupt the normal operation of the application by making it access the data without authorization or execute involuntary commands.\r\n<ul><li><span style=\"font-weight: bold; \">Authentication failures</span></li></ul>\r\nIf a vulnerability scan in web applications finds a failure, it may be due to loss of authentication. This is a critical vulnerability, as it allows the attacker to impersonate another user. This can compromise important data such as usernames, passwords, session tokens, and more.\r\n<ul><li><span style=\"font-weight: bold; \">Sensitive data exposure</span></li></ul>\r\nA serious risk is the exposure of sensitive data especially financial information such as credit cards or account numbers, personal data such as place of residence, or health-related information. If an attacker scans for this type of vulnerability, he or she may modify or steal this data and use it fraudulently. Therefore, it is essential to use a web app scanning tools to find vulnerabilities in web applications.<br /><br /><br />","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_Web_Application_Vulnerability_Scanner.png","alias":"web-application-vulnerability-scanner"},"834":{"id":834,"title":"IoT - Internet of Things Security","description":" IoT security is the technology area concerned with safeguarding connected devices and networks in the internet of things (IoT).\r\nIoT involves adding internet connectivity to a system of interrelated computing devices, mechanical and digital machines, objects, animals and/or people. Each "thing" is provided a unique identifier and the ability to automatically transfer data over a network. Allowing devices to connect to the internet opens them up to a number of serious vulnerabilities if they are not properly protected.\r\nIoT security has become the subject of scrutiny after a number of high-profile incidents where a common IoT device was used to infiltrate and attack the larger network. Implementing security measures is critical to ensuring the safety of networks with IoT devices connected to them.\r\nIoT security hacks can happen in any industry, from smart home to a manufacturing plant to a connected car. The severity of impact depends greatly on the individual system, the data collected and/or the information it contains.\r\nAn attack disabling the brakes of a connected car, for example, or on a connected health device, such as an insulin pump hacked to administer too much medication to a patient, can be life-threatening. Likewise, an attack on a refrigeration system housing medicine that is monitored by an IoT system can ruin the viability of a medicine if temperatures fluctuate. Similarly, an attack on critical infrastructure -- an oil well, energy grid or water supply -- can be disastrous.\r\nSo, a robust IoT security portfolio must allow protecting devices from all types of vulnerabilities while deploying the security level that best matches application needs. Cryptography technologies are used to combat communication attacks. Security services are offered for protecting against lifecycle attacks. Isolation measures can be implemented to fend off software attacks. And, finally, IoT security should include tamper mitigation and side-channel attack mitigation technologies for fighting physical attacks of the chip.","materialsDescription":" <span style=\"font-weight: bold;\">What are the key requirements of IoT Security?</span>\r\nThe key requirements for any IoT security solution are:\r\n<ul><li>Device and data security, including authentication of devices and confidentiality and integrity of data</li><li>Implementing and running security operations at IoT scale</li><li>Meeting compliance requirements and requests</li><li>Meeting performance requirements as per the use case</li></ul>\r\n<span style=\"font-weight: bold;\">What do connected devices require to participate in the IoT Securely?</span>\r\nTo securely participate in the IoT, each connected device needs a unique identification – even before it has an IP address. This digital credential establishes the root of trust for the device’s entire lifecycle, from initial design to deployment to retirement.\r\n<span style=\"font-weight: bold;\">Why is device authentication necessary for the IoT?</span>\r\nStrong IoT device authentication is required to ensure connected devices on the IoT can be trusted to be what they purport to be. Consequently, each IoT device needs a unique identity that can be authenticated when the device attempts to connect to a gateway or central server. With this unique ID in place, IT system administrators can track each device throughout its lifecycle, communicate securely with it, and prevent it from executing harmful processes. If a device exhibits unexpected behavior, administrators can simply revoke its privileges.\r\n<span style=\"font-weight: bold;\">Why is secure manufacturing necessary for IoT devices?</span>\r\nIoT devices produced through unsecured manufacturing processes provide criminals opportunities to change production runs to introduce unauthorized code or produce additional units that are subsequently sold on the black market.\r\nOne way to secure manufacturing processes is to use hardware security modules (HSMs) and supporting security software to inject cryptographic keys and digital certificates and to control the number of units built and the code incorporated into each.\r\n<span style=\"font-weight: bold;\">Why is code signing necessary for IoT devices?</span>\r\nTo protect businesses, brands, partners, and users from software that has been infected by malware, software developers have adopted code signing. In the IoT, code signing in the software release process ensures the integrity of IoT device software and firmware updates and defends against the risks associated with code tampering or code that deviates from organizational policies.\r\nIn public key cryptography, code signing is a specific use of certificate-based digital signatures that enables an organization to verify the identity of the software publisher and certify the software has not been changed since it was published.\r\n<span style=\"font-weight: bold;\">What is IoT PKI?</span>\r\nToday there are more things (devices) online than there are people on the planet! Devices are the number one users of the Internet and need digital identities for secure operation. As enterprises seek to transform their business models to stay competitive, rapid adoption of IoT technologies is creating increasing demand for Public Key Infrastructures (PKIs) to provide digital certificates for the growing number of devices and the software and firmware they run.\r\nSafe IoT deployments require not only trusting the devices to be authentic and to be who they say they are, but also trusting that the data they collect is real and not altered. If one cannot trust the IoT devices and the data, there is no point in collecting, running analytics, and executing decisions based on the information collected.\r\nSecure adoption of IoT requires:\r\n<ul><li>Enabling mutual authentication between connected devices and applications</li><li>Maintaining the integrity and confidentiality of the data collected by devices</li><li>Ensuring the legitimacy and integrity of the software downloaded to devices</li><li>Preserving the privacy of sensitive data in light of stricter security regulations</li></ul>","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/iot.png","alias":"iot-internet-of-things-security"},"840":{"id":840,"title":"ICS/SCADA Cyber Security","description":"SCADA security is the practice of protecting supervisory control and data acquisition (SCADA) networks, a common framework of control systems used in industrial operations. These networks are responsible for providing automated control and remote human management of essential commodities and services such as water, natural gas, electricity and transportation to millions of people. They can also be used to improve the efficiencies and quality in other less essential (but some would say very important!) real-world processes such as snowmaking for ski resorts and beer brewing. SCADA is one of the most common types of industrial control systems (ICS).\r\nThese networks, just like any other network, are under threat from cyber-attacks that could bring down any part of the nation's critical infrastructure quickly and with dire consequences if the right security is not in place. Capital expenditure is another key concern; SCADA systems can cost an organization from tens of thousands to millions of dollars. For these reasons, it is essential that organizations implement robust SCADA security measures to protect their infrastructure and the millions of people that would be affected by the disruption caused by an external attack or internal error.\r\nSCADA security has evolved dramatically in recent years. Before computers, the only way to monitor a SCADA network was to deploy several people to each station to report back on the state of each system. In busier stations, technicians were stationed permanently to manually operate the network and communicate over telephone wires.\r\nIt wasn't until the introduction of the local area network (LAN) and improvements in system miniaturization that we started to see advances in SCADA development such as the distributed SCADA network. Next came networked systems that were able to communicate over a wide area network (WAN) and connect many more components together.\r\nFrom local companies to federal governments, every business or organization that works with SCADA systems are vulnerable to SCADA security threats. These threats can have wide-reaching effects on both the economy and the community. Specific threats to SCADA networks include the following:\r\n<span style=\"font-weight: bold;\">Hackers.</span> Individuals or groups with malicious intent could bring a SCADA network to its knees. By gaining access to key SCADA components, hackers could unleash chaos on an organization that can range from a disruption in services to cyber warfare.\r\n<span style=\"font-weight: bold;\">Malware.</span> Malware, including viruses, spyware and ransomware can pose a risk to SCADA systems. While malware may not be able to specifically target the network itself, it can still pose a threat to the key infrastructure that helps to manage the SCADA network. This includes mobile SCADA applications that are used to monitor and manage SCADA systems.\r\n<span style=\"font-weight: bold;\">Terrorists.</span> Where hackers are usually motivated by sordid gain, terrorists are driven by the desire to cause as much mayhem and damage as possible.\r\n<span style=\"font-weight: bold;\">Employees.</span> Insider threats can be just as damaging as external threats. From human error to a disgruntled employee or contractor, it is essential that SCADA security addresses these risks.\r\nManaging today's SCADA networks can be a challenge without the right security precautions in place. Many networks are still without the necessary detection and monitoring systems and this leaves them vulnerable to attack. Because SCADA network attacks exploit both cyber and physical vulnerabilities, it is critical to align cybersecurity measures accordingly.","materialsDescription":"<span style=\"font-weight: bold;\">What is the difference between ICS/SCADA cybersecurity and information security?</span>\r\nAutomated process control systems (SCADA) have a lot of differences from “traditional” corporate information systems: from the destination, specific data transfer protocols and equipment used and ending with the environment in which they operate. In corporate networks and systems, as a rule, the main protected resource is information that is processed, transmitted and stored in automated systems, and the main goal is to ensure its confidentiality. In ICS, the protected resource, first of all, is the technological process itself, and the main goal is to ensure its continuity (accessibility of all nodes) and integrity (including information transmitted between the nodes of the ICS). Moreover, the field of potential risks and threats to ICS, in comparison with corporate systems, expands with risks of potential damage to life and health of personnel and the public, damage to the environment and infrastructure. That is why it is incorrect to talk about “information security” in relation to ICS/SCADA. In English sources, the term “cybersecurity” is used for this, a direct translation of which (cybersecurity) is increasingly found in our market in relation to the protection of process control systems.\r\n<span style=\"font-weight: bold;\">Is it really necessary?</span>\r\nIt is necessary. There are a number of myths about process control systems, for example: “process control systems are completely isolated from the outside world”, “process control systems are too specific for someone to crack”, “process control systems are reliably protected by the developer”, or even “No one will ever try us, hacking us is not interesting. ” All this is no longer true. Many modern distributed process control systems have one or another connection with the corporate network, even if the system owners are unaware of this. Communication with the outside world greatly simplifies the task of the attacker, but does not remain the only possible option. Automated process control software and data transfer protocols are, as a rule, very, very insecure against cyber threats. This is evidenced by numerous articles and reports of experts involved in the study of the protection of industrial control systems and penetration tests. The PHDays III section on hacking automated process control systems impressed even ardent skeptics. Well, and, of course, the argument “they have NOT attacked us, therefore they will not” - can hardly be considered seriously. Everyone has heard about Stuxnet, which dispelled almost all the myths about the safety of ICS at once.\r\n<span style=\"font-weight: bold;\">Who needs this?</span>\r\nWith the phrase ICS/SCADA, most imagine huge plants, automated CNC machines or something similar. However, the application of process control systems is not limited to these objects - in the modern age of automation, process control systems are used everywhere: from large production facilities, the oil and gas industry, transport management to smart home systems. And, by the way, with the protection of the latter, as a rule, everything can be much worse, because the developer silently and imperceptibly shifts responsibility to the shoulders of the user.\r\nOf course, some of the objects with automated process control systems are more interesting for attackers, others less. But, given the ever-growing number of vulnerabilities discovered and published in the ICS, the spread of "exclusive" (written for specific protocols and ICS software) malware, considering your system safe "by default" is unreasonable.\r\n<span style=\"font-weight: bold;\">Are ICS and SCADA the same thing?</span>\r\nNo. SCADA systems (supervisory control and data acquisition, supervisory control and data collection) are part of the control system. Usually, a SCADA system means centralized control and management systems with the participation of a person as a whole system or a complex of industrial control systems. SCADA is the central link between people (human-machine interfaces) and PLC levels (programmable logic controller) or RTU (remote terminal unit).\r\n<span style=\"font-weight: bold;\">What is ICS/SCADA cybersecurity?</span>\r\nIn fact, ICS cybersecurity is a process similar to “information security” in a number of properties, but very different in details. And the devil, as you know, lies in them. ICS/SCADA also has similar information security-related processes: asset inventory, risk analysis and assessment, threat analysis, security management, change management, incident response, continuity, etc. But these processes themselves are different.<br />The cyber security of ICSs has the same basic target qualities - confidentiality, integrity and accessibility, but the significance and point of application for them are completely different. It should be remembered that in ICS/SCADA we, first of all, protect the technological process. Beyond this - from the risks of damage to human health and life and the environment.","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_SCADA_Cyber_Security.png","alias":"icsscada-cyber-security"}},"branches":"Information Technology","companySizes":"101 to 500 Employees","companyUrl":"http://verveindustrial.com/","countryCodes":[],"certifications":[],"isSeller":true,"isSupplier":true,"isVendor":true,"presenterCodeLng":"","seo":{"title":"Verve Industrial Protection","keywords":"","description":" <span style=\"font-weight: bold;\">Verve Industrial Protection's</span> mission is to protect the world's critical infrastructure. For twenty-five years, we have helped our clients simplify and reduce the cost of building and maintaining secure, rel","og:title":"Verve Industrial Protection","og:description":" <span style=\"font-weight: bold;\">Verve Industrial Protection's</span> mission is to protect the world's critical infrastructure. For twenty-five years, we have helped our clients simplify and reduce the cost of building and maintaining secure, rel","og:image":"https://old.roi4cio.com/uploads/roi/company/Verve_Industrial_Protection.png"},"eventUrl":"","vendorPartners":[],"supplierPartners":[],"vendoredProducts":[{"id":4407,"logoURL":"https://old.roi4cio.com/fileadmin/user_upload/Verve_Industrial_Protection.png","logo":true,"scheme":false,"title":"Verve Security Center","vendorVerified":0,"rating":"0.00","implementationsCount":0,"suppliersCount":0,"supplierPartnersCount":0,"alias":"verve-security-center","companyTitle":"Verve Industrial Protection","companyTypes":["supplier","vendor"],"companyId":6827,"companyAlias":"verve-industrial-protection","description":"<p class=\"align-center\"><span style=\"font-style: italic;\"><span style=\"font-weight: bold;\">Proven, Comprehensive, Efficient Solutions</span></span></p>\r\n<span style=\"font-weight: bold;\">PROVEN</span>\r\n<ul><li>Proven Team: 25 years of ICS expertise</li><li>Proven OT Cyber Security Platform: Deployed across all major control system OEMs</li><li>Proven Delivery: Hundreds of succesful customer deployments across DCS and SCADA environments</li></ul>\r\n<span style=\"font-weight: bold;\">COMPREHENSIVE</span>\r\n<ul><li>Comprehensive Solution: Integrated Software & Services with no need for handoffs</li><li>Comprehensive Coverage: Vendor-agnostic solutions for all controls equipment (HMIs, Networking, PLCs, IEDs, etc.)</li><li>Comprehensive Cyber Security: Complete coverage for NIST CSF, NERC CIP, CIS CSC20, IEC 62443</li></ul>\r\n<span style=\"font-weight: bold;\">EFFICIENT</span>\r\n<ul><li>Efficient design: Low cost solutions from experienced ICS architects</li><li>Efficient cyber security software platform: No need for hardware or expensive taps or span-port infrastructure</li><li>Efficient maintenance: Integrated platform for monitoring and reporting</li></ul>\r\n<p class=\"align-center\"><span style=\"font-style: italic;\"><span style=\"font-weight: bold;\">One Integrated Solution</span></span></p>\r\n<p class=\"align-left\">The Verve Security Center is the only vendor-agnostic end point protection, detection & response solution designed for OT/ICS</p>\r\n<ul><li>Asset Inventory: 100% visibility and aggregation of OT end point data on all OT devices</li><li>OT-safe automated vulnerability assessment</li><li>Secure Configuration analysis and management</li><li>Log event management</li><li> Anomaly detection</li><li>Not only detect, but remediate with integrated actionability</li><li>Cross-vendor patch management</li><li>Integrated compliance reporting for all major standards: NIST CSF, CIS CSC20, NERC CIP, IEC 62443, etc.</li></ul>\r\n<p class=\"align-center\"><span style=\"font-weight: bold;\">VIP SERVICES</span></p>\r\n<p class=\"align-left\">Verve Industrial Protection (VIP) Services is built on 25 years’ experience in industrial controls engineering.</p>\r\n<ul><li>Vendor-agnostic control system automation engineering</li><li>Secure data historian design & maintenance</li><li>Network design and segmentation</li><li>Software-enabled Vulnerability Assessments</li><li>“Re-commissioning” to harden end points with deep controls-system experts</li><li>OT cyber security process & procedure development</li><li>Remote managed security & reliability services</li><li>End-to-end patch services (discovery, evaluation, deployment)</li></ul>\r\n<p class=\"align-left\"> </p>\r\n<p class=\"align-left\"><span style=\"font-weight: bold;\">Automation Controls.</span> 25 year’s of experience in vendor-agnostic design and programming of DCS, SCADA, PLC and other industrial control systems</p>\r\n<p class=\"align-left\"><span style=\"font-weight: bold;\">ICS Network Design & Segmentation.</span> Expert assessment and design of ICS networks for security and reliability.<br />Data Historian Design & Management. Expert design of control system data historian systems (OSI PI, AspenTech, Schneider, etc.) to ensure data availability even in highly segmented, segregated networks.</p>\r\n<p class=\"align-left\"><span style=\"font-weight: bold;\">ICS Vulnerability & Security Assessments.</span> Comprehensive end point, network, and policy/procedure assessment, leveraging 25 years’ experience and the unique Verve Security Center functionality.</p>\r\n<p class=\"align-left\"><span style=\"font-weight: bold;\">Ongoing Patch & Vulnerability Management.</span> Managed patch and vulnerability service providing detection & evaluation, as well as deployment support of ICS patches.</p>\r\n<p class=\"align-left\"><span style=\"font-weight: bold;\">Remote Monitoring for Security, Compliance and Reliability.</span> Integrated security & reliability managed services to provide scale and expertise across distributed controls networks.<br /><br /><br /><br /></p>","shortDescription":"The ability to see the full range of vulnerabilities from missing patches to insecure configurations on end points, to inappropriate network design and firewall rules in a single platform.","type":null,"isRoiCalculatorAvaliable":false,"isConfiguratorAvaliable":false,"bonus":100,"usingCount":16,"sellingCount":8,"discontinued":0,"rebateForPoc":0,"rebate":0,"seo":{"title":"Verve Security Center","keywords":"","description":"<p class=\"align-center\"><span style=\"font-style: italic;\"><span style=\"font-weight: bold;\">Proven, Comprehensive, Efficient Solutions</span></span></p>\r\n<span style=\"font-weight: bold;\">PROVEN</span>\r\n<ul><li>Proven Team: 25 years of ICS expertise</li><li>Prov","og:title":"Verve Security Center","og:description":"<p class=\"align-center\"><span style=\"font-style: italic;\"><span style=\"font-weight: bold;\">Proven, Comprehensive, Efficient Solutions</span></span></p>\r\n<span style=\"font-weight: bold;\">PROVEN</span>\r\n<ul><li>Proven Team: 25 years of ICS expertise</li><li>Prov","og:image":"https://old.roi4cio.com/fileadmin/user_upload/Verve_Industrial_Protection.png"},"eventUrl":"","translationId":4408,"dealDetails":null,"roi":null,"price":null,"bonusForReference":null,"templateData":[],"testingArea":"","categories":[{"id":34,"title":"ITSM - IT Service Management","alias":"itsm-it-service-management","description":"<span style=\"font-weight: bold; \">IT service management (ITSM)</span> is the process of designing, delivering, managing, and improving the IT services an organization provides to its end users. ITSM is focused on aligning IT processes and services with business objectives to help an organization grow.\r\nITSM positions IT services as the key means of delivering and obtaining value, where an internal or external IT service provider works with business customers, at the same time taking responsibility for the associated costs and risks. ITSM works across the whole lifecycle of a service, from the original strategy, through design, transition and into live operation.\r\nTo ensure sustainable quality of IT services, ITSM establishes a set of practices, or processes, constituting a service management system. There are industrial, national and international standards for IT service management solutions, setting up requirements and good practices for the management system. \r\nITSM system is based on a set of principles, such as focusing on value and continual improvement. It is not just a set of processes – it is a cultural mindset to ensure that the desired outcome for the business is achieved. \r\n<span style=\"font-weight: bold; \">ITIL (IT Infrastructure Library)</span> is a framework of best practices and recommendations for managing an organization's IT operations and services. IT service management processes, when built based on the ITIL framework, pave the way for better IT service operations management and improved business. To summarize, ITIL is a set of guidelines for effective IT service management best practices. ITIL has evolved beyond the delivery of services to providing end-to-end value delivery. The focus is now on the co-creation of value through service relationships. \r\n<p class=\"align-center\"><span style=\"font-weight: bold; \">ITSM processes typically include five stages, all based on the ITIL framework:</span></p>\r\n<span style=\"font-weight: bold; \">ITSM strategy.</span> This stage forms the foundation or the framework of an organization's ITSM process building. It involves defining the services that the organization will offer, strategically planning processes, and recognizing and developing the required assets to keep processes moving. \r\n<span style=\"font-weight: bold; \">Service design.</span> This stage's main aim is planning and designing the IT services the organization offers to meet business demands. It involves creating and designing new services as well as assessing current services and making relevant improvements.\r\n<span style=\"font-weight: bold; \">Service transition.</span> Once the designs for IT services and their processes have been finalized, it's important to build them and test them out to ensure that processes flow. IT teams need to ensure that the designs don't disrupt services in any way, especially when existing IT service processes are upgraded or redesigned. This calls for change management, evaluation, and risk management. \r\n<span style=\"font-weight: bold; \">Service operation. </span>This phase involves implementing the tried and tested new or modified designs in a live environment. While in this stage, the processes have already been tested and the issues fixed, but new processes are bound to have hiccups—especially when customers start using the services. \r\n<span style=\"font-weight: bold;\">Continual service improvement (CSI).</span> Implementing IT processes successfully shouldn't be the final stage in any organization. There's always room for improvement and new development based on issues that pop up, customer needs and demands, and user feedback.\r\n\r\n","materialsDescription":"<h1 class=\"align-center\">Benefits of efficient ITSM processes</h1>\r\nIrrespective of the size of business, every organization is involved in IT service management in some way. ITSM ensures that incidents, service requests, problems, changes, and IT assets—in addition to other aspects of IT services—are managed in a streamlined way.\r\nIT teams in your organization can employ various workflows and best practices in ITSM, as outlined in ITIL. Effective IT service management can have positive effects on an IT organization's overall function.\r\nHere are the 10 key benefits of ITSM:\r\n<ul><li> Lower costs for IT operations</li><li> Higher returns on IT investments</li><li> Minimal service outages</li><li> Ability to establish well-defined, repeatable, and manageable IT processes</li><li> Efficient analysis of IT problems to reduce repeat incidents</li><li> Improved efficiency of IT help desk teams</li><li> Well-defined roles and responsibilities</li><li> Clear expectations on service levels and service availability</li><li> Risk-free implementation of IT changes</li><li> Better transparency into IT processes and services</li></ul>\r\n<h1 class=\"align-center\">How to choose an ITSM tool?</h1>\r\nWith a competent IT service management goal in mind, it's important to invest in a service desk solution that caters to your business needs. It goes without saying, with more than 150 service desk tools to choose from, selecting the right one is easier said than done. Here are a few things to keep in mind when choosing an ITSM products:\r\n<span style=\"font-weight: bold; \">Identify key processes and their dependencies. </span>Based on business goals, decide which key ITSM processes need to be implemented and chart out the integrations that need to be established to achieve those goals. \r\n<span style=\"font-weight: bold; \">Consult with ITSM experts.</span> Participate in business expos, webinars, demos, etc., and educate yourself about the various options that are available in the market. Reports from expert analysts such as Gartner and Forrester are particularly useful as they include reviews of almost every solution, ranked based on multiple criteria.\r\n<span style=\"font-weight: bold; \">Choose a deployment option.</span> Every business has a different IT infrastructure model. Selecting an on-premises or software as a service (SaaS IT service management) tool depends on whether your business prefers to host its applications and data on its own servers or use a public or private cloud.\r\n<span style=\"font-weight: bold; \">Plan ahead for the future.</span> Although it's important to consider the "needs" primarily, you shouldn't rule out the secondary or luxury capabilities. If the ITSM tool doesn't have the potential to adapt to your needs as your organization grows, it can pull you back from progressing. Draw a clear picture of where your business is headed and choose an service ITSM that is flexible and technology-driven.\r\n<span style=\"font-weight: bold;\">Don't stop with the capabilities of the ITSM tool.</span> It might be tempting to assess an ITSM tool based on its capabilities and features but it's important to evaluate the vendor of the tool. A good IT support team, and a vendor that is endorsed for their customer-vendor relationship can take your IT services far. Check Gartner's magic quadrant and other analyst reports, along with product and support reviews to ensure that the said tool provides good customer support.","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_ITSM.png"},{"id":840,"title":"ICS/SCADA Cyber Security","alias":"icsscada-cyber-security","description":"SCADA security is the practice of protecting supervisory control and data acquisition (SCADA) networks, a common framework of control systems used in industrial operations. These networks are responsible for providing automated control and remote human management of essential commodities and services such as water, natural gas, electricity and transportation to millions of people. They can also be used to improve the efficiencies and quality in other less essential (but some would say very important!) real-world processes such as snowmaking for ski resorts and beer brewing. SCADA is one of the most common types of industrial control systems (ICS).\r\nThese networks, just like any other network, are under threat from cyber-attacks that could bring down any part of the nation's critical infrastructure quickly and with dire consequences if the right security is not in place. Capital expenditure is another key concern; SCADA systems can cost an organization from tens of thousands to millions of dollars. For these reasons, it is essential that organizations implement robust SCADA security measures to protect their infrastructure and the millions of people that would be affected by the disruption caused by an external attack or internal error.\r\nSCADA security has evolved dramatically in recent years. Before computers, the only way to monitor a SCADA network was to deploy several people to each station to report back on the state of each system. In busier stations, technicians were stationed permanently to manually operate the network and communicate over telephone wires.\r\nIt wasn't until the introduction of the local area network (LAN) and improvements in system miniaturization that we started to see advances in SCADA development such as the distributed SCADA network. Next came networked systems that were able to communicate over a wide area network (WAN) and connect many more components together.\r\nFrom local companies to federal governments, every business or organization that works with SCADA systems are vulnerable to SCADA security threats. These threats can have wide-reaching effects on both the economy and the community. Specific threats to SCADA networks include the following:\r\n<span style=\"font-weight: bold;\">Hackers.</span> Individuals or groups with malicious intent could bring a SCADA network to its knees. By gaining access to key SCADA components, hackers could unleash chaos on an organization that can range from a disruption in services to cyber warfare.\r\n<span style=\"font-weight: bold;\">Malware.</span> Malware, including viruses, spyware and ransomware can pose a risk to SCADA systems. While malware may not be able to specifically target the network itself, it can still pose a threat to the key infrastructure that helps to manage the SCADA network. This includes mobile SCADA applications that are used to monitor and manage SCADA systems.\r\n<span style=\"font-weight: bold;\">Terrorists.</span> Where hackers are usually motivated by sordid gain, terrorists are driven by the desire to cause as much mayhem and damage as possible.\r\n<span style=\"font-weight: bold;\">Employees.</span> Insider threats can be just as damaging as external threats. From human error to a disgruntled employee or contractor, it is essential that SCADA security addresses these risks.\r\nManaging today's SCADA networks can be a challenge without the right security precautions in place. Many networks are still without the necessary detection and monitoring systems and this leaves them vulnerable to attack. Because SCADA network attacks exploit both cyber and physical vulnerabilities, it is critical to align cybersecurity measures accordingly.","materialsDescription":"<span style=\"font-weight: bold;\">What is the difference between ICS/SCADA cybersecurity and information security?</span>\r\nAutomated process control systems (SCADA) have a lot of differences from “traditional” corporate information systems: from the destination, specific data transfer protocols and equipment used and ending with the environment in which they operate. In corporate networks and systems, as a rule, the main protected resource is information that is processed, transmitted and stored in automated systems, and the main goal is to ensure its confidentiality. In ICS, the protected resource, first of all, is the technological process itself, and the main goal is to ensure its continuity (accessibility of all nodes) and integrity (including information transmitted between the nodes of the ICS). Moreover, the field of potential risks and threats to ICS, in comparison with corporate systems, expands with risks of potential damage to life and health of personnel and the public, damage to the environment and infrastructure. That is why it is incorrect to talk about “information security” in relation to ICS/SCADA. In English sources, the term “cybersecurity” is used for this, a direct translation of which (cybersecurity) is increasingly found in our market in relation to the protection of process control systems.\r\n<span style=\"font-weight: bold;\">Is it really necessary?</span>\r\nIt is necessary. There are a number of myths about process control systems, for example: “process control systems are completely isolated from the outside world”, “process control systems are too specific for someone to crack”, “process control systems are reliably protected by the developer”, or even “No one will ever try us, hacking us is not interesting. ” All this is no longer true. Many modern distributed process control systems have one or another connection with the corporate network, even if the system owners are unaware of this. Communication with the outside world greatly simplifies the task of the attacker, but does not remain the only possible option. Automated process control software and data transfer protocols are, as a rule, very, very insecure against cyber threats. This is evidenced by numerous articles and reports of experts involved in the study of the protection of industrial control systems and penetration tests. The PHDays III section on hacking automated process control systems impressed even ardent skeptics. Well, and, of course, the argument “they have NOT attacked us, therefore they will not” - can hardly be considered seriously. Everyone has heard about Stuxnet, which dispelled almost all the myths about the safety of ICS at once.\r\n<span style=\"font-weight: bold;\">Who needs this?</span>\r\nWith the phrase ICS/SCADA, most imagine huge plants, automated CNC machines or something similar. However, the application of process control systems is not limited to these objects - in the modern age of automation, process control systems are used everywhere: from large production facilities, the oil and gas industry, transport management to smart home systems. And, by the way, with the protection of the latter, as a rule, everything can be much worse, because the developer silently and imperceptibly shifts responsibility to the shoulders of the user.\r\nOf course, some of the objects with automated process control systems are more interesting for attackers, others less. But, given the ever-growing number of vulnerabilities discovered and published in the ICS, the spread of "exclusive" (written for specific protocols and ICS software) malware, considering your system safe "by default" is unreasonable.\r\n<span style=\"font-weight: bold;\">Are ICS and SCADA the same thing?</span>\r\nNo. SCADA systems (supervisory control and data acquisition, supervisory control and data collection) are part of the control system. Usually, a SCADA system means centralized control and management systems with the participation of a person as a whole system or a complex of industrial control systems. SCADA is the central link between people (human-machine interfaces) and PLC levels (programmable logic controller) or RTU (remote terminal unit).\r\n<span style=\"font-weight: bold;\">What is ICS/SCADA cybersecurity?</span>\r\nIn fact, ICS cybersecurity is a process similar to “information security” in a number of properties, but very different in details. And the devil, as you know, lies in them. ICS/SCADA also has similar information security-related processes: asset inventory, risk analysis and assessment, threat analysis, security management, change management, incident response, continuity, etc. But these processes themselves are different.<br />The cyber security of ICSs has the same basic target qualities - confidentiality, integrity and accessibility, but the significance and point of application for them are completely different. It should be remembered that in ICS/SCADA we, first of all, protect the technological process. Beyond this - from the risks of damage to human health and life and the environment.","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_SCADA_Cyber_Security.png"},{"id":834,"title":"IoT - Internet of Things Security","alias":"iot-internet-of-things-security","description":" IoT security is the technology area concerned with safeguarding connected devices and networks in the internet of things (IoT).\r\nIoT involves adding internet connectivity to a system of interrelated computing devices, mechanical and digital machines, objects, animals and/or people. Each "thing" is provided a unique identifier and the ability to automatically transfer data over a network. Allowing devices to connect to the internet opens them up to a number of serious vulnerabilities if they are not properly protected.\r\nIoT security has become the subject of scrutiny after a number of high-profile incidents where a common IoT device was used to infiltrate and attack the larger network. Implementing security measures is critical to ensuring the safety of networks with IoT devices connected to them.\r\nIoT security hacks can happen in any industry, from smart home to a manufacturing plant to a connected car. The severity of impact depends greatly on the individual system, the data collected and/or the information it contains.\r\nAn attack disabling the brakes of a connected car, for example, or on a connected health device, such as an insulin pump hacked to administer too much medication to a patient, can be life-threatening. Likewise, an attack on a refrigeration system housing medicine that is monitored by an IoT system can ruin the viability of a medicine if temperatures fluctuate. Similarly, an attack on critical infrastructure -- an oil well, energy grid or water supply -- can be disastrous.\r\nSo, a robust IoT security portfolio must allow protecting devices from all types of vulnerabilities while deploying the security level that best matches application needs. Cryptography technologies are used to combat communication attacks. Security services are offered for protecting against lifecycle attacks. Isolation measures can be implemented to fend off software attacks. And, finally, IoT security should include tamper mitigation and side-channel attack mitigation technologies for fighting physical attacks of the chip.","materialsDescription":" <span style=\"font-weight: bold;\">What are the key requirements of IoT Security?</span>\r\nThe key requirements for any IoT security solution are:\r\n<ul><li>Device and data security, including authentication of devices and confidentiality and integrity of data</li><li>Implementing and running security operations at IoT scale</li><li>Meeting compliance requirements and requests</li><li>Meeting performance requirements as per the use case</li></ul>\r\n<span style=\"font-weight: bold;\">What do connected devices require to participate in the IoT Securely?</span>\r\nTo securely participate in the IoT, each connected device needs a unique identification – even before it has an IP address. This digital credential establishes the root of trust for the device’s entire lifecycle, from initial design to deployment to retirement.\r\n<span style=\"font-weight: bold;\">Why is device authentication necessary for the IoT?</span>\r\nStrong IoT device authentication is required to ensure connected devices on the IoT can be trusted to be what they purport to be. Consequently, each IoT device needs a unique identity that can be authenticated when the device attempts to connect to a gateway or central server. With this unique ID in place, IT system administrators can track each device throughout its lifecycle, communicate securely with it, and prevent it from executing harmful processes. If a device exhibits unexpected behavior, administrators can simply revoke its privileges.\r\n<span style=\"font-weight: bold;\">Why is secure manufacturing necessary for IoT devices?</span>\r\nIoT devices produced through unsecured manufacturing processes provide criminals opportunities to change production runs to introduce unauthorized code or produce additional units that are subsequently sold on the black market.\r\nOne way to secure manufacturing processes is to use hardware security modules (HSMs) and supporting security software to inject cryptographic keys and digital certificates and to control the number of units built and the code incorporated into each.\r\n<span style=\"font-weight: bold;\">Why is code signing necessary for IoT devices?</span>\r\nTo protect businesses, brands, partners, and users from software that has been infected by malware, software developers have adopted code signing. In the IoT, code signing in the software release process ensures the integrity of IoT device software and firmware updates and defends against the risks associated with code tampering or code that deviates from organizational policies.\r\nIn public key cryptography, code signing is a specific use of certificate-based digital signatures that enables an organization to verify the identity of the software publisher and certify the software has not been changed since it was published.\r\n<span style=\"font-weight: bold;\">What is IoT PKI?</span>\r\nToday there are more things (devices) online than there are people on the planet! Devices are the number one users of the Internet and need digital identities for secure operation. As enterprises seek to transform their business models to stay competitive, rapid adoption of IoT technologies is creating increasing demand for Public Key Infrastructures (PKIs) to provide digital certificates for the growing number of devices and the software and firmware they run.\r\nSafe IoT deployments require not only trusting the devices to be authentic and to be who they say they are, but also trusting that the data they collect is real and not altered. If one cannot trust the IoT devices and the data, there is no point in collecting, running analytics, and executing decisions based on the information collected.\r\nSecure adoption of IoT requires:\r\n<ul><li>Enabling mutual authentication between connected devices and applications</li><li>Maintaining the integrity and confidentiality of the data collected by devices</li><li>Ensuring the legitimacy and integrity of the software downloaded to devices</li><li>Preserving the privacy of sensitive data in light of stricter security regulations</li></ul>","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/iot.png"},{"id":77,"title":"SOC - Situation Centre","alias":"soc-situation-centre","description":"One of the most pressing tasks facing government bodies and commercial structures is to increase the efficiency of management activities. A modern tool for solving this problem is situational centers, which are complex hardware and software systems for collecting, analyzing and displaying information in a form convenient for making critical decisions.\r\nSituational centers are created for the heads of federal, regional and municipal government bodies, ministries and departments, and large companies. Their main task is to provide information and analytical support for procedures and processes that allow managers to make effective decisions on the current management of headed structures, formulating their development strategies, as well as preventing or eliminating crisis and emergency situations. The structure and composition of the situational site are determined by the specifics of the tasks being solved. As a rule, this is a complex technical complex that includes many subsystems.\r\nThere are many types of command centers. They include: data center management, business application management, civil management, emergency (crisis) management.","materialsDescription":" <span style=\"font-weight: bold;\">What is a Security Operations Center (SOC)?</span>\r\nA SOC is an outsourced office that is completely dedicated to analyzing traffic flow and monitoring for threats and attacks. In today’s world of cyberattacks and data breaches, companies of all sizes need to place an emphasis on securing their technology assets. But due to budget constraints and competing priorities, many organizations can’t afford to employ a full-time in-house IT security team. The smart solution to this problem is to look at partnering with a SOC or security operations center.\r\n<span style=\"font-weight: bold;\">How does a security operations center work?</span>\r\nUntil the recent rise of cloud computing, standard security practice was for a company to choose a traditional software as a product (SaaP) malware scanning solution either via download or, in ancient days, a CD-Rom that arrived via mail. They’d add to that a firewall installed at the edge of the network, and trust that those measures would keep their data and systems safe. Today’s reality is a far different environment, with threats being cast all across the net as hackers invent new ways to launch profitable and sophisticated attacks like ransomware.\r\nA SOC is an example of the software as a service (SaaS) software model in that it operates in the cloud as a subscription service. In this context, it provides a layer of rented expertise to a company’s cybersecurity strategy that operates 24/7 so that networks and endpoints are constantly being monitored. If a vulnerability is found or an incident is discovered, the SOC will engage with the on-site IT team to respond to the issue and investigate the root cause.\r\nIndividual SOC cybersecurity providers offer different suites of products and services. However, there is a core set of operational functions that a SOC must perform in order to add value to an organization.\r\n<ol><li><span style=\"font-weight: bold;\">Asset Survey:</span> In order for a SOC to help a company stay secure, they must have a complete understanding of what resources they need to protect. Otherwise, they may not be able to protect the full scope of the network. An asset survey should identify every server, router, firewall under enterprise control, as well as any other cybersecurity tools actively in use.</li><li><span style=\"font-weight: bold;\">Log Collection:</span> Data is the most important thing for a SOC to function properly and logs serve as the key source of information regarding network activity. The SOC should set up direct feeds from enterprise systems so that data is collected in real-time. Obviously, humans cannot digest such large amounts of information, which is why log scanning tools powered by artificial intelligence algorithms are so valuable for SOCs, though they do pose some interesting side effects that humanity is still trying to iron out.</li><li><span style=\"font-weight: bold;\">Preventative Maintenance:</span> In the best-case scenario, the SOC is able to prevent cyberattacks from occurring by being proactive with their processes. This includes installing security patches and adjusting firewall policies on a regular basis. Since some cyberattacks actually begin as insider threats, a SOC must also look within the organization for risks also.</li><li><span style=\"font-weight: bold;\">Continuous Monitoring:</span> In order to be ready to respond to a cybersecurity incident, the SOC must be vigilant in its monitoring practices. A few minutes can be the difference between blocking an attack and letting it take down an entire system or website. SOC tools run scans across the company’s network to identify potential threats and other suspicious activity.</li><li><span style=\"font-weight: bold;\">Alert Management:</span> Automated systems are great at finding patterns and following scripts. But the human element of a SOC proves it's worth it when it comes to analyzing automated alerts and ranking them based on their severity and priority. SOC staff must know what responses to take and how to verify that an alert is legitimate.</li><li><span style=\"font-weight: bold;\">Root Cause Analysis:</span> After an incident occurs and is resolved, the job of the SOC is just beginning. Cybersecurity experts will analyze the root cause of the problem and diagnose why it occurred in the first place. This feeds into a process of continuous improvement, with security tools and rules being modified to prevent future occurrences of the same incident.</li><li><span style=\"font-weight: bold;\">Compliance Audits:</span> Companies want to know that their data and systems are safe but also that they are being managed in a lawful manner. SOC providers must perform regular audits to confirm their compliance in the regions where they operate. What is a SOC report and what is a SOC audit? Anything that pulls data or records from cybersecurity functions of an organization. What is SOC 2? It’s a special auditing procedure related to information security and privacy.</li></ol>","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/SOC_-_Situation_Centre.png"},{"id":40,"title":"Endpoint security","alias":"endpoint-security","description":"In network security, endpoint security refers to a methodology of protecting the corporate network when accessed via remote devices such as laptops or other wireless and mobile devices. Each device with a remote connecting to the network creates a potential entry point for security threats. Endpoint security is designed to secure each endpoint on the network created by these devices.\r\nUsually, endpoint security is a security system that consists of security software, located on a centrally managed and accessible server or gateway within the network, in addition to client software being installed on each of the endpoints (or devices). The server authenticates logins from the endpoints and also updates the device software when needed. While endpoint security software differs by vendor, you can expect most software offerings to provide antivirus, antispyware, firewall and also a host intrusion prevention system (HIPS).\r\nEndpoint security is becoming a more common IT security function and concern as more employees bring consumer mobile devices to work and companies allow its mobile workforce to use these devices on the corporate network.<br /><br />","materialsDescription":"<span style=\"font-weight: bold;\">What are endpoint devices?</span>\r\nAny device that can connect to the central business network is considered an endpoint. Endpoint devices are potential entry points for cybersecurity threats and need strong protection because they are often the weakest link in network security.\r\n<span style=\"font-weight: bold;\">What is endpoint security management?</span>\r\nA set of rules defining the level of security that each device connected to the business network must comply with. These rules may include using an approved operating system (OS), installing a virtual private network (VPN), or running up-to-date antivirus software. If the device connecting to the network does not have the desired level of protection, it may have to connect via a guest network and have limited network access.\r\n<span style=\"font-weight: bold;\">What is endpoint security software?</span>\r\nPrograms that make sure your devices are protected. Endpoint protection software may be cloud-based and work as SaaS (Software as a Service). Endpoint security software can also be installed on each device separately as a standalone application.\r\n<span style=\"font-weight: bold;\">What is endpoint detection and response (EDR)?</span>\r\nEndpoint detection and response (EDR) solutions analyze files and programs, and report on any threats found. EDR solutions monitor continuously for advanced threats, helping to identify attacks at an early stage and respond rapidly to a range of threats.<br /><br />","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_Endpoint_security.png"},{"id":204,"title":"Managed Detection and Response","alias":"managed-detection-and-response","description":" MDR, which stands for Managed Detection & Response, is an all-encompassing threat detection system, which arose from the need for small/medium-sized organizations who lack resources to be able to monitor their network systems in-house. It provides a cost-effective alternative to SIEM (Security Information and Event Management).\r\nEveryday, the capabilities of attackers get more sophisticated and the volume of alerts becomes overwhelming and unmanageable. In-house teams might struggle to analyze and log data, which makes it harder than ever to determine if these threats are harmful. MDR can put a stop to attacks before they even happen. MDR technology monitors your systems and detects any unusual behavior, whilst our expert team responds to the threats detected within your business.\r\nMDR offers real-time threat intelligence, and is able to analyse behaviour which can be missed by traditional endpoint security technology. MDR also provides rapid identification of known threats, which in turn minimises overall attacks. Having remote incident investigation will minimise damage to your business, and will allow you to get back to work in no time. It’s important to note that using MDR services will allow third party access to your company's data. You need to consider working with a provider who understands and respects your data policy.","materialsDescription":" <span style=\"font-weight: bold;\">What is Managed Detection and Response?</span>\r\nManaged Detection and Response (MDR) is a managed cybersecurity service that provides intrusion detection of malware and malicious activity in your network, and assists in rapid incident response to eliminate those threats with succinct remediation actions. MDR typically combines a technology solution with outsourced security analysts that extend your technologies and team.\r\n<span style=\"font-weight: bold;\">Isn’t that What MSSPs or Managed SIEMs Do?</span>\r\nNo. Managed Security Service Providers (MSSPs) monitor network security controls and may send alerts when anomalies are identified. MSSPs typically do not investigate the anomalies to eliminate false positives, nor do they respond to real threats. This means that abnormalities in network usage are forwarded to your IT personnel who must then dig through the data to determine if there is a real threat and what to do about it.\r\n<span style=\"font-weight: bold;\">Doesn’t My Firewall Protect My Network?</span>\r\nFirewalls and other preventive forms of cybersecurity are very important and effective at preventing basic cyberattacks. However, over the past decade, it has become clear that preventive cybersecurity technologies are not enough to secure an organization’s network. Further, they are yet another source of alerts, log messages, and events that contribute to the “alert fatigue” being universally suffered today. Recent major hacks such as the Marriot Hack of 2018, the Anthem Hack of 2015, and the Target Hack of 2013 demonstrate how easily cybercriminals can breach networks at enterprise organizations to steal millions of credit card numbers, medical records, and other forms of PII/PHI.","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/Endpoint_Detection_and_Response.png"},{"id":467,"title":"Network Forensics","alias":"network-forensics","description":" Network forensics is a sub-branch of digital forensics relating to the monitoring and analysis of computer network traffic for the purposes of information gathering, legal evidence, or intrusion detection. Unlike other areas of digital forensics, network investigations deal with volatile and dynamic information. Network traffic is transmitted and then lost, so network forensics is often a pro-active investigation.\r\nNetwork forensics generally has two uses. The first, relating to security, involves monitoring a network for anomalous traffic and identifying intrusions. An attacker might be able to erase all log files on a compromised host; network-based evidence might therefore be the only evidence available for forensic analysis. The second form relates to law enforcement. In this case analysis of captured network traffic can include tasks such as reassembling transferred files, searching for keywords and parsing human communication such as emails or chat sessions.\r\nTwo systems are commonly used to collect network data; a brute force "catch it as you can" and a more intelligent "stop look listen" method.\r\nNetwork forensics is a comparatively new field of forensic science. The growing popularity of the Internet in homes means that computing has become network-centric and data is now available outside of disk-based digital evidence. Network forensics can be performed as a standalone investigation or alongside a computer forensics analysis (where it is often used to reveal links between digital devices or reconstruct how a crime was committed).\r\nMarcus Ranum is credited with defining Network forensics as "the capture, recording, and analysis of network events in order to discover the source of security attacks or other problem incidents".\r\nCompared to computer forensics, where evidence is usually preserved on disk, network data is more volatile and unpredictable. Investigators often only have material to examine if packet filters, firewalls, and intrusion detection systems were set up to anticipate breaches of security.\r\nSystems used to collect network data for forensics use usually come in two forms:\r\n<ul><li>"Catch-it-as-you-can" – This is where all packets passing through a certain traffic point are captured and written to storage with analysis being done subsequently in batch mode. This approach requires large amounts of storage.</li><li>"Stop, look and listen" – This is where each packet is analyzed in a rudimentary way in memory and only certain information saved for future analysis. This approach requires a faster processor to keep up with incoming traffic.</li></ul>","materialsDescription":" <span style=\"font-weight: bold;\">Why is network forensics important?</span>\r\nNetwork forensics is important because so many common attacks entail some type of misuse of network resources.\r\n<span style=\"font-weight: bold;\">What are the different ways in which the network can be attacked?</span>\r\nAttacks typically target availability confidentiality and integrity. Loss of any one of these items constitutes a security breach.\r\n<span style=\"font-weight: bold;\">Where is the best place to search for information?</span>\r\nInformation can be found by either doing a live analysis of the network, analyzing IDS information, or examining logs that can be found in routers and servers.\r\n<span style=\"font-weight: bold;\">How does a forensic analyst know how deeply to look for information?</span>\r\nSome amount of information can be derived from looking at the skill level of the attacker. Attackers with little skill are much less likely to use advanced hiding techniques.","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_Network_Forensics.png"}],"characteristics":[],"concurentProducts":[],"jobRoles":[],"organizationalFeatures":[],"complementaryCategories":[],"solutions":[],"materials":[],"useCases":[],"best_practices":[],"values":[],"implementations":[]}],"suppliedProducts":[{"id":4407,"logoURL":"https://old.roi4cio.com/fileadmin/user_upload/Verve_Industrial_Protection.png","logo":true,"scheme":false,"title":"Verve Security Center","vendorVerified":0,"rating":"0.00","implementationsCount":0,"suppliersCount":0,"supplierPartnersCount":0,"alias":"verve-security-center","companyTitle":"Verve Industrial Protection","companyTypes":["supplier","vendor"],"companyId":6827,"companyAlias":"verve-industrial-protection","description":"<p class=\"align-center\"><span style=\"font-style: italic;\"><span style=\"font-weight: bold;\">Proven, Comprehensive, Efficient Solutions</span></span></p>\r\n<span style=\"font-weight: bold;\">PROVEN</span>\r\n<ul><li>Proven Team: 25 years of ICS expertise</li><li>Proven OT Cyber Security Platform: Deployed across all major control system OEMs</li><li>Proven Delivery: Hundreds of succesful customer deployments across DCS and SCADA environments</li></ul>\r\n<span style=\"font-weight: bold;\">COMPREHENSIVE</span>\r\n<ul><li>Comprehensive Solution: Integrated Software & Services with no need for handoffs</li><li>Comprehensive Coverage: Vendor-agnostic solutions for all controls equipment (HMIs, Networking, PLCs, IEDs, etc.)</li><li>Comprehensive Cyber Security: Complete coverage for NIST CSF, NERC CIP, CIS CSC20, IEC 62443</li></ul>\r\n<span style=\"font-weight: bold;\">EFFICIENT</span>\r\n<ul><li>Efficient design: Low cost solutions from experienced ICS architects</li><li>Efficient cyber security software platform: No need for hardware or expensive taps or span-port infrastructure</li><li>Efficient maintenance: Integrated platform for monitoring and reporting</li></ul>\r\n<p class=\"align-center\"><span style=\"font-style: italic;\"><span style=\"font-weight: bold;\">One Integrated Solution</span></span></p>\r\n<p class=\"align-left\">The Verve Security Center is the only vendor-agnostic end point protection, detection & response solution designed for OT/ICS</p>\r\n<ul><li>Asset Inventory: 100% visibility and aggregation of OT end point data on all OT devices</li><li>OT-safe automated vulnerability assessment</li><li>Secure Configuration analysis and management</li><li>Log event management</li><li> Anomaly detection</li><li>Not only detect, but remediate with integrated actionability</li><li>Cross-vendor patch management</li><li>Integrated compliance reporting for all major standards: NIST CSF, CIS CSC20, NERC CIP, IEC 62443, etc.</li></ul>\r\n<p class=\"align-center\"><span style=\"font-weight: bold;\">VIP SERVICES</span></p>\r\n<p class=\"align-left\">Verve Industrial Protection (VIP) Services is built on 25 years’ experience in industrial controls engineering.</p>\r\n<ul><li>Vendor-agnostic control system automation engineering</li><li>Secure data historian design & maintenance</li><li>Network design and segmentation</li><li>Software-enabled Vulnerability Assessments</li><li>“Re-commissioning” to harden end points with deep controls-system experts</li><li>OT cyber security process & procedure development</li><li>Remote managed security & reliability services</li><li>End-to-end patch services (discovery, evaluation, deployment)</li></ul>\r\n<p class=\"align-left\"> </p>\r\n<p class=\"align-left\"><span style=\"font-weight: bold;\">Automation Controls.</span> 25 year’s of experience in vendor-agnostic design and programming of DCS, SCADA, PLC and other industrial control systems</p>\r\n<p class=\"align-left\"><span style=\"font-weight: bold;\">ICS Network Design & Segmentation.</span> Expert assessment and design of ICS networks for security and reliability.<br />Data Historian Design & Management. Expert design of control system data historian systems (OSI PI, AspenTech, Schneider, etc.) to ensure data availability even in highly segmented, segregated networks.</p>\r\n<p class=\"align-left\"><span style=\"font-weight: bold;\">ICS Vulnerability & Security Assessments.</span> Comprehensive end point, network, and policy/procedure assessment, leveraging 25 years’ experience and the unique Verve Security Center functionality.</p>\r\n<p class=\"align-left\"><span style=\"font-weight: bold;\">Ongoing Patch & Vulnerability Management.</span> Managed patch and vulnerability service providing detection & evaluation, as well as deployment support of ICS patches.</p>\r\n<p class=\"align-left\"><span style=\"font-weight: bold;\">Remote Monitoring for Security, Compliance and Reliability.</span> Integrated security & reliability managed services to provide scale and expertise across distributed controls networks.<br /><br /><br /><br /></p>","shortDescription":"The ability to see the full range of vulnerabilities from missing patches to insecure configurations on end points, to inappropriate network design and firewall rules in a single platform.","type":null,"isRoiCalculatorAvaliable":false,"isConfiguratorAvaliable":false,"bonus":100,"usingCount":16,"sellingCount":8,"discontinued":0,"rebateForPoc":0,"rebate":0,"seo":{"title":"Verve Security Center","keywords":"","description":"<p class=\"align-center\"><span style=\"font-style: italic;\"><span style=\"font-weight: bold;\">Proven, Comprehensive, Efficient Solutions</span></span></p>\r\n<span style=\"font-weight: bold;\">PROVEN</span>\r\n<ul><li>Proven Team: 25 years of ICS expertise</li><li>Prov","og:title":"Verve Security Center","og:description":"<p class=\"align-center\"><span style=\"font-style: italic;\"><span style=\"font-weight: bold;\">Proven, Comprehensive, Efficient Solutions</span></span></p>\r\n<span style=\"font-weight: bold;\">PROVEN</span>\r\n<ul><li>Proven Team: 25 years of ICS expertise</li><li>Prov","og:image":"https://old.roi4cio.com/fileadmin/user_upload/Verve_Industrial_Protection.png"},"eventUrl":"","translationId":4408,"dealDetails":null,"roi":null,"price":null,"bonusForReference":null,"templateData":[],"testingArea":"","categories":[{"id":34,"title":"ITSM - IT Service Management","alias":"itsm-it-service-management","description":"<span style=\"font-weight: bold; \">IT service management (ITSM)</span> is the process of designing, delivering, managing, and improving the IT services an organization provides to its end users. ITSM is focused on aligning IT processes and services with business objectives to help an organization grow.\r\nITSM positions IT services as the key means of delivering and obtaining value, where an internal or external IT service provider works with business customers, at the same time taking responsibility for the associated costs and risks. ITSM works across the whole lifecycle of a service, from the original strategy, through design, transition and into live operation.\r\nTo ensure sustainable quality of IT services, ITSM establishes a set of practices, or processes, constituting a service management system. There are industrial, national and international standards for IT service management solutions, setting up requirements and good practices for the management system. \r\nITSM system is based on a set of principles, such as focusing on value and continual improvement. It is not just a set of processes – it is a cultural mindset to ensure that the desired outcome for the business is achieved. \r\n<span style=\"font-weight: bold; \">ITIL (IT Infrastructure Library)</span> is a framework of best practices and recommendations for managing an organization's IT operations and services. IT service management processes, when built based on the ITIL framework, pave the way for better IT service operations management and improved business. To summarize, ITIL is a set of guidelines for effective IT service management best practices. ITIL has evolved beyond the delivery of services to providing end-to-end value delivery. The focus is now on the co-creation of value through service relationships. \r\n<p class=\"align-center\"><span style=\"font-weight: bold; \">ITSM processes typically include five stages, all based on the ITIL framework:</span></p>\r\n<span style=\"font-weight: bold; \">ITSM strategy.</span> This stage forms the foundation or the framework of an organization's ITSM process building. It involves defining the services that the organization will offer, strategically planning processes, and recognizing and developing the required assets to keep processes moving. \r\n<span style=\"font-weight: bold; \">Service design.</span> This stage's main aim is planning and designing the IT services the organization offers to meet business demands. It involves creating and designing new services as well as assessing current services and making relevant improvements.\r\n<span style=\"font-weight: bold; \">Service transition.</span> Once the designs for IT services and their processes have been finalized, it's important to build them and test them out to ensure that processes flow. IT teams need to ensure that the designs don't disrupt services in any way, especially when existing IT service processes are upgraded or redesigned. This calls for change management, evaluation, and risk management. \r\n<span style=\"font-weight: bold; \">Service operation. </span>This phase involves implementing the tried and tested new or modified designs in a live environment. While in this stage, the processes have already been tested and the issues fixed, but new processes are bound to have hiccups—especially when customers start using the services. \r\n<span style=\"font-weight: bold;\">Continual service improvement (CSI).</span> Implementing IT processes successfully shouldn't be the final stage in any organization. There's always room for improvement and new development based on issues that pop up, customer needs and demands, and user feedback.\r\n\r\n","materialsDescription":"<h1 class=\"align-center\">Benefits of efficient ITSM processes</h1>\r\nIrrespective of the size of business, every organization is involved in IT service management in some way. ITSM ensures that incidents, service requests, problems, changes, and IT assets—in addition to other aspects of IT services—are managed in a streamlined way.\r\nIT teams in your organization can employ various workflows and best practices in ITSM, as outlined in ITIL. Effective IT service management can have positive effects on an IT organization's overall function.\r\nHere are the 10 key benefits of ITSM:\r\n<ul><li> Lower costs for IT operations</li><li> Higher returns on IT investments</li><li> Minimal service outages</li><li> Ability to establish well-defined, repeatable, and manageable IT processes</li><li> Efficient analysis of IT problems to reduce repeat incidents</li><li> Improved efficiency of IT help desk teams</li><li> Well-defined roles and responsibilities</li><li> Clear expectations on service levels and service availability</li><li> Risk-free implementation of IT changes</li><li> Better transparency into IT processes and services</li></ul>\r\n<h1 class=\"align-center\">How to choose an ITSM tool?</h1>\r\nWith a competent IT service management goal in mind, it's important to invest in a service desk solution that caters to your business needs. It goes without saying, with more than 150 service desk tools to choose from, selecting the right one is easier said than done. Here are a few things to keep in mind when choosing an ITSM products:\r\n<span style=\"font-weight: bold; \">Identify key processes and their dependencies. </span>Based on business goals, decide which key ITSM processes need to be implemented and chart out the integrations that need to be established to achieve those goals. \r\n<span style=\"font-weight: bold; \">Consult with ITSM experts.</span> Participate in business expos, webinars, demos, etc., and educate yourself about the various options that are available in the market. Reports from expert analysts such as Gartner and Forrester are particularly useful as they include reviews of almost every solution, ranked based on multiple criteria.\r\n<span style=\"font-weight: bold; \">Choose a deployment option.</span> Every business has a different IT infrastructure model. Selecting an on-premises or software as a service (SaaS IT service management) tool depends on whether your business prefers to host its applications and data on its own servers or use a public or private cloud.\r\n<span style=\"font-weight: bold; \">Plan ahead for the future.</span> Although it's important to consider the "needs" primarily, you shouldn't rule out the secondary or luxury capabilities. If the ITSM tool doesn't have the potential to adapt to your needs as your organization grows, it can pull you back from progressing. Draw a clear picture of where your business is headed and choose an service ITSM that is flexible and technology-driven.\r\n<span style=\"font-weight: bold;\">Don't stop with the capabilities of the ITSM tool.</span> It might be tempting to assess an ITSM tool based on its capabilities and features but it's important to evaluate the vendor of the tool. A good IT support team, and a vendor that is endorsed for their customer-vendor relationship can take your IT services far. Check Gartner's magic quadrant and other analyst reports, along with product and support reviews to ensure that the said tool provides good customer support.","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_ITSM.png"},{"id":840,"title":"ICS/SCADA Cyber Security","alias":"icsscada-cyber-security","description":"SCADA security is the practice of protecting supervisory control and data acquisition (SCADA) networks, a common framework of control systems used in industrial operations. These networks are responsible for providing automated control and remote human management of essential commodities and services such as water, natural gas, electricity and transportation to millions of people. They can also be used to improve the efficiencies and quality in other less essential (but some would say very important!) real-world processes such as snowmaking for ski resorts and beer brewing. SCADA is one of the most common types of industrial control systems (ICS).\r\nThese networks, just like any other network, are under threat from cyber-attacks that could bring down any part of the nation's critical infrastructure quickly and with dire consequences if the right security is not in place. Capital expenditure is another key concern; SCADA systems can cost an organization from tens of thousands to millions of dollars. For these reasons, it is essential that organizations implement robust SCADA security measures to protect their infrastructure and the millions of people that would be affected by the disruption caused by an external attack or internal error.\r\nSCADA security has evolved dramatically in recent years. Before computers, the only way to monitor a SCADA network was to deploy several people to each station to report back on the state of each system. In busier stations, technicians were stationed permanently to manually operate the network and communicate over telephone wires.\r\nIt wasn't until the introduction of the local area network (LAN) and improvements in system miniaturization that we started to see advances in SCADA development such as the distributed SCADA network. Next came networked systems that were able to communicate over a wide area network (WAN) and connect many more components together.\r\nFrom local companies to federal governments, every business or organization that works with SCADA systems are vulnerable to SCADA security threats. These threats can have wide-reaching effects on both the economy and the community. Specific threats to SCADA networks include the following:\r\n<span style=\"font-weight: bold;\">Hackers.</span> Individuals or groups with malicious intent could bring a SCADA network to its knees. By gaining access to key SCADA components, hackers could unleash chaos on an organization that can range from a disruption in services to cyber warfare.\r\n<span style=\"font-weight: bold;\">Malware.</span> Malware, including viruses, spyware and ransomware can pose a risk to SCADA systems. While malware may not be able to specifically target the network itself, it can still pose a threat to the key infrastructure that helps to manage the SCADA network. This includes mobile SCADA applications that are used to monitor and manage SCADA systems.\r\n<span style=\"font-weight: bold;\">Terrorists.</span> Where hackers are usually motivated by sordid gain, terrorists are driven by the desire to cause as much mayhem and damage as possible.\r\n<span style=\"font-weight: bold;\">Employees.</span> Insider threats can be just as damaging as external threats. From human error to a disgruntled employee or contractor, it is essential that SCADA security addresses these risks.\r\nManaging today's SCADA networks can be a challenge without the right security precautions in place. Many networks are still without the necessary detection and monitoring systems and this leaves them vulnerable to attack. Because SCADA network attacks exploit both cyber and physical vulnerabilities, it is critical to align cybersecurity measures accordingly.","materialsDescription":"<span style=\"font-weight: bold;\">What is the difference between ICS/SCADA cybersecurity and information security?</span>\r\nAutomated process control systems (SCADA) have a lot of differences from “traditional” corporate information systems: from the destination, specific data transfer protocols and equipment used and ending with the environment in which they operate. In corporate networks and systems, as a rule, the main protected resource is information that is processed, transmitted and stored in automated systems, and the main goal is to ensure its confidentiality. In ICS, the protected resource, first of all, is the technological process itself, and the main goal is to ensure its continuity (accessibility of all nodes) and integrity (including information transmitted between the nodes of the ICS). Moreover, the field of potential risks and threats to ICS, in comparison with corporate systems, expands with risks of potential damage to life and health of personnel and the public, damage to the environment and infrastructure. That is why it is incorrect to talk about “information security” in relation to ICS/SCADA. In English sources, the term “cybersecurity” is used for this, a direct translation of which (cybersecurity) is increasingly found in our market in relation to the protection of process control systems.\r\n<span style=\"font-weight: bold;\">Is it really necessary?</span>\r\nIt is necessary. There are a number of myths about process control systems, for example: “process control systems are completely isolated from the outside world”, “process control systems are too specific for someone to crack”, “process control systems are reliably protected by the developer”, or even “No one will ever try us, hacking us is not interesting. ” All this is no longer true. Many modern distributed process control systems have one or another connection with the corporate network, even if the system owners are unaware of this. Communication with the outside world greatly simplifies the task of the attacker, but does not remain the only possible option. Automated process control software and data transfer protocols are, as a rule, very, very insecure against cyber threats. This is evidenced by numerous articles and reports of experts involved in the study of the protection of industrial control systems and penetration tests. The PHDays III section on hacking automated process control systems impressed even ardent skeptics. Well, and, of course, the argument “they have NOT attacked us, therefore they will not” - can hardly be considered seriously. Everyone has heard about Stuxnet, which dispelled almost all the myths about the safety of ICS at once.\r\n<span style=\"font-weight: bold;\">Who needs this?</span>\r\nWith the phrase ICS/SCADA, most imagine huge plants, automated CNC machines or something similar. However, the application of process control systems is not limited to these objects - in the modern age of automation, process control systems are used everywhere: from large production facilities, the oil and gas industry, transport management to smart home systems. And, by the way, with the protection of the latter, as a rule, everything can be much worse, because the developer silently and imperceptibly shifts responsibility to the shoulders of the user.\r\nOf course, some of the objects with automated process control systems are more interesting for attackers, others less. But, given the ever-growing number of vulnerabilities discovered and published in the ICS, the spread of "exclusive" (written for specific protocols and ICS software) malware, considering your system safe "by default" is unreasonable.\r\n<span style=\"font-weight: bold;\">Are ICS and SCADA the same thing?</span>\r\nNo. SCADA systems (supervisory control and data acquisition, supervisory control and data collection) are part of the control system. Usually, a SCADA system means centralized control and management systems with the participation of a person as a whole system or a complex of industrial control systems. SCADA is the central link between people (human-machine interfaces) and PLC levels (programmable logic controller) or RTU (remote terminal unit).\r\n<span style=\"font-weight: bold;\">What is ICS/SCADA cybersecurity?</span>\r\nIn fact, ICS cybersecurity is a process similar to “information security” in a number of properties, but very different in details. And the devil, as you know, lies in them. ICS/SCADA also has similar information security-related processes: asset inventory, risk analysis and assessment, threat analysis, security management, change management, incident response, continuity, etc. But these processes themselves are different.<br />The cyber security of ICSs has the same basic target qualities - confidentiality, integrity and accessibility, but the significance and point of application for them are completely different. It should be remembered that in ICS/SCADA we, first of all, protect the technological process. Beyond this - from the risks of damage to human health and life and the environment.","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_SCADA_Cyber_Security.png"},{"id":834,"title":"IoT - Internet of Things Security","alias":"iot-internet-of-things-security","description":" IoT security is the technology area concerned with safeguarding connected devices and networks in the internet of things (IoT).\r\nIoT involves adding internet connectivity to a system of interrelated computing devices, mechanical and digital machines, objects, animals and/or people. Each "thing" is provided a unique identifier and the ability to automatically transfer data over a network. Allowing devices to connect to the internet opens them up to a number of serious vulnerabilities if they are not properly protected.\r\nIoT security has become the subject of scrutiny after a number of high-profile incidents where a common IoT device was used to infiltrate and attack the larger network. Implementing security measures is critical to ensuring the safety of networks with IoT devices connected to them.\r\nIoT security hacks can happen in any industry, from smart home to a manufacturing plant to a connected car. The severity of impact depends greatly on the individual system, the data collected and/or the information it contains.\r\nAn attack disabling the brakes of a connected car, for example, or on a connected health device, such as an insulin pump hacked to administer too much medication to a patient, can be life-threatening. Likewise, an attack on a refrigeration system housing medicine that is monitored by an IoT system can ruin the viability of a medicine if temperatures fluctuate. Similarly, an attack on critical infrastructure -- an oil well, energy grid or water supply -- can be disastrous.\r\nSo, a robust IoT security portfolio must allow protecting devices from all types of vulnerabilities while deploying the security level that best matches application needs. Cryptography technologies are used to combat communication attacks. Security services are offered for protecting against lifecycle attacks. Isolation measures can be implemented to fend off software attacks. And, finally, IoT security should include tamper mitigation and side-channel attack mitigation technologies for fighting physical attacks of the chip.","materialsDescription":" <span style=\"font-weight: bold;\">What are the key requirements of IoT Security?</span>\r\nThe key requirements for any IoT security solution are:\r\n<ul><li>Device and data security, including authentication of devices and confidentiality and integrity of data</li><li>Implementing and running security operations at IoT scale</li><li>Meeting compliance requirements and requests</li><li>Meeting performance requirements as per the use case</li></ul>\r\n<span style=\"font-weight: bold;\">What do connected devices require to participate in the IoT Securely?</span>\r\nTo securely participate in the IoT, each connected device needs a unique identification – even before it has an IP address. This digital credential establishes the root of trust for the device’s entire lifecycle, from initial design to deployment to retirement.\r\n<span style=\"font-weight: bold;\">Why is device authentication necessary for the IoT?</span>\r\nStrong IoT device authentication is required to ensure connected devices on the IoT can be trusted to be what they purport to be. Consequently, each IoT device needs a unique identity that can be authenticated when the device attempts to connect to a gateway or central server. With this unique ID in place, IT system administrators can track each device throughout its lifecycle, communicate securely with it, and prevent it from executing harmful processes. If a device exhibits unexpected behavior, administrators can simply revoke its privileges.\r\n<span style=\"font-weight: bold;\">Why is secure manufacturing necessary for IoT devices?</span>\r\nIoT devices produced through unsecured manufacturing processes provide criminals opportunities to change production runs to introduce unauthorized code or produce additional units that are subsequently sold on the black market.\r\nOne way to secure manufacturing processes is to use hardware security modules (HSMs) and supporting security software to inject cryptographic keys and digital certificates and to control the number of units built and the code incorporated into each.\r\n<span style=\"font-weight: bold;\">Why is code signing necessary for IoT devices?</span>\r\nTo protect businesses, brands, partners, and users from software that has been infected by malware, software developers have adopted code signing. In the IoT, code signing in the software release process ensures the integrity of IoT device software and firmware updates and defends against the risks associated with code tampering or code that deviates from organizational policies.\r\nIn public key cryptography, code signing is a specific use of certificate-based digital signatures that enables an organization to verify the identity of the software publisher and certify the software has not been changed since it was published.\r\n<span style=\"font-weight: bold;\">What is IoT PKI?</span>\r\nToday there are more things (devices) online than there are people on the planet! Devices are the number one users of the Internet and need digital identities for secure operation. As enterprises seek to transform their business models to stay competitive, rapid adoption of IoT technologies is creating increasing demand for Public Key Infrastructures (PKIs) to provide digital certificates for the growing number of devices and the software and firmware they run.\r\nSafe IoT deployments require not only trusting the devices to be authentic and to be who they say they are, but also trusting that the data they collect is real and not altered. If one cannot trust the IoT devices and the data, there is no point in collecting, running analytics, and executing decisions based on the information collected.\r\nSecure adoption of IoT requires:\r\n<ul><li>Enabling mutual authentication between connected devices and applications</li><li>Maintaining the integrity and confidentiality of the data collected by devices</li><li>Ensuring the legitimacy and integrity of the software downloaded to devices</li><li>Preserving the privacy of sensitive data in light of stricter security regulations</li></ul>","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/iot.png"},{"id":77,"title":"SOC - Situation Centre","alias":"soc-situation-centre","description":"One of the most pressing tasks facing government bodies and commercial structures is to increase the efficiency of management activities. A modern tool for solving this problem is situational centers, which are complex hardware and software systems for collecting, analyzing and displaying information in a form convenient for making critical decisions.\r\nSituational centers are created for the heads of federal, regional and municipal government bodies, ministries and departments, and large companies. Their main task is to provide information and analytical support for procedures and processes that allow managers to make effective decisions on the current management of headed structures, formulating their development strategies, as well as preventing or eliminating crisis and emergency situations. The structure and composition of the situational site are determined by the specifics of the tasks being solved. As a rule, this is a complex technical complex that includes many subsystems.\r\nThere are many types of command centers. They include: data center management, business application management, civil management, emergency (crisis) management.","materialsDescription":" <span style=\"font-weight: bold;\">What is a Security Operations Center (SOC)?</span>\r\nA SOC is an outsourced office that is completely dedicated to analyzing traffic flow and monitoring for threats and attacks. In today’s world of cyberattacks and data breaches, companies of all sizes need to place an emphasis on securing their technology assets. But due to budget constraints and competing priorities, many organizations can’t afford to employ a full-time in-house IT security team. The smart solution to this problem is to look at partnering with a SOC or security operations center.\r\n<span style=\"font-weight: bold;\">How does a security operations center work?</span>\r\nUntil the recent rise of cloud computing, standard security practice was for a company to choose a traditional software as a product (SaaP) malware scanning solution either via download or, in ancient days, a CD-Rom that arrived via mail. They’d add to that a firewall installed at the edge of the network, and trust that those measures would keep their data and systems safe. Today’s reality is a far different environment, with threats being cast all across the net as hackers invent new ways to launch profitable and sophisticated attacks like ransomware.\r\nA SOC is an example of the software as a service (SaaS) software model in that it operates in the cloud as a subscription service. In this context, it provides a layer of rented expertise to a company’s cybersecurity strategy that operates 24/7 so that networks and endpoints are constantly being monitored. If a vulnerability is found or an incident is discovered, the SOC will engage with the on-site IT team to respond to the issue and investigate the root cause.\r\nIndividual SOC cybersecurity providers offer different suites of products and services. However, there is a core set of operational functions that a SOC must perform in order to add value to an organization.\r\n<ol><li><span style=\"font-weight: bold;\">Asset Survey:</span> In order for a SOC to help a company stay secure, they must have a complete understanding of what resources they need to protect. Otherwise, they may not be able to protect the full scope of the network. An asset survey should identify every server, router, firewall under enterprise control, as well as any other cybersecurity tools actively in use.</li><li><span style=\"font-weight: bold;\">Log Collection:</span> Data is the most important thing for a SOC to function properly and logs serve as the key source of information regarding network activity. The SOC should set up direct feeds from enterprise systems so that data is collected in real-time. Obviously, humans cannot digest such large amounts of information, which is why log scanning tools powered by artificial intelligence algorithms are so valuable for SOCs, though they do pose some interesting side effects that humanity is still trying to iron out.</li><li><span style=\"font-weight: bold;\">Preventative Maintenance:</span> In the best-case scenario, the SOC is able to prevent cyberattacks from occurring by being proactive with their processes. This includes installing security patches and adjusting firewall policies on a regular basis. Since some cyberattacks actually begin as insider threats, a SOC must also look within the organization for risks also.</li><li><span style=\"font-weight: bold;\">Continuous Monitoring:</span> In order to be ready to respond to a cybersecurity incident, the SOC must be vigilant in its monitoring practices. A few minutes can be the difference between blocking an attack and letting it take down an entire system or website. SOC tools run scans across the company’s network to identify potential threats and other suspicious activity.</li><li><span style=\"font-weight: bold;\">Alert Management:</span> Automated systems are great at finding patterns and following scripts. But the human element of a SOC proves it's worth it when it comes to analyzing automated alerts and ranking them based on their severity and priority. SOC staff must know what responses to take and how to verify that an alert is legitimate.</li><li><span style=\"font-weight: bold;\">Root Cause Analysis:</span> After an incident occurs and is resolved, the job of the SOC is just beginning. Cybersecurity experts will analyze the root cause of the problem and diagnose why it occurred in the first place. This feeds into a process of continuous improvement, with security tools and rules being modified to prevent future occurrences of the same incident.</li><li><span style=\"font-weight: bold;\">Compliance Audits:</span> Companies want to know that their data and systems are safe but also that they are being managed in a lawful manner. SOC providers must perform regular audits to confirm their compliance in the regions where they operate. What is a SOC report and what is a SOC audit? Anything that pulls data or records from cybersecurity functions of an organization. What is SOC 2? It’s a special auditing procedure related to information security and privacy.</li></ol>","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/SOC_-_Situation_Centre.png"},{"id":40,"title":"Endpoint security","alias":"endpoint-security","description":"In network security, endpoint security refers to a methodology of protecting the corporate network when accessed via remote devices such as laptops or other wireless and mobile devices. Each device with a remote connecting to the network creates a potential entry point for security threats. Endpoint security is designed to secure each endpoint on the network created by these devices.\r\nUsually, endpoint security is a security system that consists of security software, located on a centrally managed and accessible server or gateway within the network, in addition to client software being installed on each of the endpoints (or devices). The server authenticates logins from the endpoints and also updates the device software when needed. While endpoint security software differs by vendor, you can expect most software offerings to provide antivirus, antispyware, firewall and also a host intrusion prevention system (HIPS).\r\nEndpoint security is becoming a more common IT security function and concern as more employees bring consumer mobile devices to work and companies allow its mobile workforce to use these devices on the corporate network.<br /><br />","materialsDescription":"<span style=\"font-weight: bold;\">What are endpoint devices?</span>\r\nAny device that can connect to the central business network is considered an endpoint. Endpoint devices are potential entry points for cybersecurity threats and need strong protection because they are often the weakest link in network security.\r\n<span style=\"font-weight: bold;\">What is endpoint security management?</span>\r\nA set of rules defining the level of security that each device connected to the business network must comply with. These rules may include using an approved operating system (OS), installing a virtual private network (VPN), or running up-to-date antivirus software. If the device connecting to the network does not have the desired level of protection, it may have to connect via a guest network and have limited network access.\r\n<span style=\"font-weight: bold;\">What is endpoint security software?</span>\r\nPrograms that make sure your devices are protected. Endpoint protection software may be cloud-based and work as SaaS (Software as a Service). Endpoint security software can also be installed on each device separately as a standalone application.\r\n<span style=\"font-weight: bold;\">What is endpoint detection and response (EDR)?</span>\r\nEndpoint detection and response (EDR) solutions analyze files and programs, and report on any threats found. EDR solutions monitor continuously for advanced threats, helping to identify attacks at an early stage and respond rapidly to a range of threats.<br /><br />","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_Endpoint_security.png"},{"id":204,"title":"Managed Detection and Response","alias":"managed-detection-and-response","description":" MDR, which stands for Managed Detection & Response, is an all-encompassing threat detection system, which arose from the need for small/medium-sized organizations who lack resources to be able to monitor their network systems in-house. It provides a cost-effective alternative to SIEM (Security Information and Event Management).\r\nEveryday, the capabilities of attackers get more sophisticated and the volume of alerts becomes overwhelming and unmanageable. In-house teams might struggle to analyze and log data, which makes it harder than ever to determine if these threats are harmful. MDR can put a stop to attacks before they even happen. MDR technology monitors your systems and detects any unusual behavior, whilst our expert team responds to the threats detected within your business.\r\nMDR offers real-time threat intelligence, and is able to analyse behaviour which can be missed by traditional endpoint security technology. MDR also provides rapid identification of known threats, which in turn minimises overall attacks. Having remote incident investigation will minimise damage to your business, and will allow you to get back to work in no time. It’s important to note that using MDR services will allow third party access to your company's data. You need to consider working with a provider who understands and respects your data policy.","materialsDescription":" <span style=\"font-weight: bold;\">What is Managed Detection and Response?</span>\r\nManaged Detection and Response (MDR) is a managed cybersecurity service that provides intrusion detection of malware and malicious activity in your network, and assists in rapid incident response to eliminate those threats with succinct remediation actions. MDR typically combines a technology solution with outsourced security analysts that extend your technologies and team.\r\n<span style=\"font-weight: bold;\">Isn’t that What MSSPs or Managed SIEMs Do?</span>\r\nNo. Managed Security Service Providers (MSSPs) monitor network security controls and may send alerts when anomalies are identified. MSSPs typically do not investigate the anomalies to eliminate false positives, nor do they respond to real threats. This means that abnormalities in network usage are forwarded to your IT personnel who must then dig through the data to determine if there is a real threat and what to do about it.\r\n<span style=\"font-weight: bold;\">Doesn’t My Firewall Protect My Network?</span>\r\nFirewalls and other preventive forms of cybersecurity are very important and effective at preventing basic cyberattacks. However, over the past decade, it has become clear that preventive cybersecurity technologies are not enough to secure an organization’s network. Further, they are yet another source of alerts, log messages, and events that contribute to the “alert fatigue” being universally suffered today. Recent major hacks such as the Marriot Hack of 2018, the Anthem Hack of 2015, and the Target Hack of 2013 demonstrate how easily cybercriminals can breach networks at enterprise organizations to steal millions of credit card numbers, medical records, and other forms of PII/PHI.","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/Endpoint_Detection_and_Response.png"},{"id":467,"title":"Network Forensics","alias":"network-forensics","description":" Network forensics is a sub-branch of digital forensics relating to the monitoring and analysis of computer network traffic for the purposes of information gathering, legal evidence, or intrusion detection. Unlike other areas of digital forensics, network investigations deal with volatile and dynamic information. Network traffic is transmitted and then lost, so network forensics is often a pro-active investigation.\r\nNetwork forensics generally has two uses. The first, relating to security, involves monitoring a network for anomalous traffic and identifying intrusions. An attacker might be able to erase all log files on a compromised host; network-based evidence might therefore be the only evidence available for forensic analysis. The second form relates to law enforcement. In this case analysis of captured network traffic can include tasks such as reassembling transferred files, searching for keywords and parsing human communication such as emails or chat sessions.\r\nTwo systems are commonly used to collect network data; a brute force "catch it as you can" and a more intelligent "stop look listen" method.\r\nNetwork forensics is a comparatively new field of forensic science. The growing popularity of the Internet in homes means that computing has become network-centric and data is now available outside of disk-based digital evidence. Network forensics can be performed as a standalone investigation or alongside a computer forensics analysis (where it is often used to reveal links between digital devices or reconstruct how a crime was committed).\r\nMarcus Ranum is credited with defining Network forensics as "the capture, recording, and analysis of network events in order to discover the source of security attacks or other problem incidents".\r\nCompared to computer forensics, where evidence is usually preserved on disk, network data is more volatile and unpredictable. Investigators often only have material to examine if packet filters, firewalls, and intrusion detection systems were set up to anticipate breaches of security.\r\nSystems used to collect network data for forensics use usually come in two forms:\r\n<ul><li>"Catch-it-as-you-can" – This is where all packets passing through a certain traffic point are captured and written to storage with analysis being done subsequently in batch mode. This approach requires large amounts of storage.</li><li>"Stop, look and listen" – This is where each packet is analyzed in a rudimentary way in memory and only certain information saved for future analysis. This approach requires a faster processor to keep up with incoming traffic.</li></ul>","materialsDescription":" <span style=\"font-weight: bold;\">Why is network forensics important?</span>\r\nNetwork forensics is important because so many common attacks entail some type of misuse of network resources.\r\n<span style=\"font-weight: bold;\">What are the different ways in which the network can be attacked?</span>\r\nAttacks typically target availability confidentiality and integrity. Loss of any one of these items constitutes a security breach.\r\n<span style=\"font-weight: bold;\">Where is the best place to search for information?</span>\r\nInformation can be found by either doing a live analysis of the network, analyzing IDS information, or examining logs that can be found in routers and servers.\r\n<span style=\"font-weight: bold;\">How does a forensic analyst know how deeply to look for information?</span>\r\nSome amount of information can be derived from looking at the skill level of the attacker. Attackers with little skill are much less likely to use advanced hiding techniques.","iconURL":"https://old.roi4cio.com/fileadmin/user_upload/icon_Network_Forensics.png"}],"characteristics":[],"concurentProducts":[],"jobRoles":[],"organizationalFeatures":[],"complementaryCategories":[],"solutions":[],"materials":[],"useCases":[],"best_practices":[],"values":[],"implementations":[]}],"partnershipProgramme":null}},"aliases":{},"links":{},"meta":{},"loading":false,"error":null},"implementations":{"implementationsByAlias":{},"aliases":{},"links":{},"meta":{},"loading":false,"error":null},"agreements":{"agreementById":{},"ids":{},"links":{},"meta":{},"loading":false,"error":null},"comparison":{"loading":false,"error":false,"templatesById":{},"comparisonByTemplateId":{},"products":[],"selectedTemplateId":null},"presentation":{"type":null,"company":{},"products":[],"partners":[],"formData":{},"dataLoading":false,"dataError":false,"loading":false,"error":false},"catalogsGlobal":{"subMenuItemTitle":""}}