Allied Universal, a security and facility services company in North America, recently announced the rebrand of Staff Pro to Allied Universal Event Services. Staff Pro was obtained through the company’s acquisition of U.S. Security Associates back in 2018. This new Allied Universal Event Services business is recognized as industry-leading crowd management, event staffing, and consulting company and now has a new logo, tagline, positioning, and web presence. In addition to offering experienced and trained professionals, managers and personnel to every type of venue and event imaginable, Allied Universal Event Services focusses on-site security and a comprehensive suite of advanced technology and risk management solutions. Backed by Allied Universal, this new brand is able to boast an expansive portfolio of industry-leading security solutions, expertise, and technological resources. Single-Source solution for event security Allied Universal Event Services' is the pioneer within the entertainment industry“We took this opportunity to rethink how our event services brand should be positioned in the marketplace as a one-stop solution,” said Steve Claton, regional president-Southwest at Allied Universal Event Services. “We are proud to be ahead of the curve in a rapidly evolving industry, and Allied Universal Event Services will now illustrate just how far our company has come.” Through the combined capabilities of Allied Universal, the company's event services division is now a single-source solution for everything from temporary staffing, consulting and security for all events. Allied Universal Event Services' is the pioneer within the entertainment industry providing innovative and expert guest management solutions. In addition, the event services team has a successful formula for addressing convention and trade show's complex challenges from a security and staffing perspective. The Allied Universal Event Services logo encompasses the visual identity of the highly recognized corporate brand of Allied Universal. This new brand’s emphasis on providing a full suite of products and top-notch customer service to clients on a national scale is highlighted in the new tagline Preferred by Clients and Loved by Guests.
Genetec Inc., a technology provider of unified security, public safety, operations, and business intelligence solutions, announces that it is partnering with Cylance, a business unit of BlackBerry, Limited, to bring AI-based antivirus protection to its appliances customers. Through this partnership, Genetec will offer additional cyber security protection to its Streamvault™ family of infrastructure solutions by including CylancePROTECT out-of-the-box at no additional cost to its customers. Predictive security technology Cyber security is at the core of our development process and we see that cyberthreats are evolving faster" Genetec Streamvault™ all-in-one and rackmount appliances, storage, and workstations are expected to be shipped pre-installed and optimized with CylancePROTECT in September 2019. “Genetec is committed to creating secure solutions from the ground up and have practices in place to help identify and mitigate risk for our customers. Cyber security is at the core of our development process and we see that cyberthreats are evolving faster than ever. With CylancePROTECT, Genetec is delivering the latest in prevention-first, predictive security technology to Streamvault customers and providing them with up-to-date protection, without compromising appliances guaranteed performance,” said Francis Lachance, Director, Video and Appliances at Genetec. Additional security controls CylancePROTECT protects endpoints and organizations from compromise by combining the power of artificial intelligence to block malware infections with additional security controls that safeguard against script-based, file-less memory, and external device-based attacks. The software delivers prevention against common and unknown threats without an internet connection Unlike traditional endpoint security products that rely on signatures and behavior analysis to detect threats in the environment, CylancePROTECT uses machine learning, not signatures, to identify and block known and unknown malware from running on endpoints. The software delivers prevention against common and unknown (zero-day) threats without an internet connection. It continuously protects an endpoint without disrupting the end-user and provides minimal impact on system resources. Physical security industry “For years, traditional antivirus prevention products relied on signatures as their primary threat protection method. Assuming all attacks on a business had been seen before, using signatures made sense. However, today, malware mutates daily, even hourly, making signature-based prevention tools obsolete. In mission-critical industries, such as the physical security industry, organizations need to think beyond traditional antivirus. We are pleased to partner with Genetec as we share the same passion for protecting our customers against cyber-attacks,” said Steve Rossi, Global Director of OEM sales at Cylance. Because it uses very little computing power, CylancePROTECT will not affect the smooth running of Genetec appliances, allowing customers to benefit from proactive threat detection without monopolizing crucial resources. In addition, with no Internet connection or signature updates required, CylancePROTECT will protect remote endpoints connected to the Genetec system.
Cobalt Robotics is a physical security service provider that builds indoor autonomous robots to make security and facility operations more effective. The company announces that it has raised $35 million in Series B financing. The financing was led by global technology investment firm, Coatue, and is intended for geographic expansion of services throughout the domestic United States. “Security is fundamentally about trust and reputation, and it needs to be reinforced across all aspects of the company: founders, employees, technology, and financial backers. Our financial backers—such as Bloomberg Beta, Sequoia Capital, and now Coatue—have been instrumental to our success so far, and they will be instrumental in our next phase of growth too,” said Dr. Travis Deyle, Cobalt CEO. Enhance security programs The physical security market is predicted to reach nearly $119.4 billion in 2023 “Our goal is to combine the best parts of machines (unwavering attention, perfect recall, and super-human sensing) with the best aspects of people (warmth, responsiveness, and adaptability) to create service robots that dramatically improve the quality of life for everyone and fundamentally redefine the modern workplace.” The physical security market is predicted to reach nearly $119.4 billion in 2023. Security robots are an innovative new tool within the industry that enhance security programs by bridging the gap between traditional technologies and services such as cameras, access control, and manned guards. Cobalt’s Robots-as-a-Service model combines autonomous patrolling robots with human specialists, enabling organizations to provide a 24-hour security solution that complements existing security assets like manned security guards and access control systems (ACS). The result is a highly effective security program with significant cost-savings and robots that remain up-to-date with the latest and greatest software. New door integration Since its $13 million Series A funding announcement in March 2018, Cobalt has deployed security and facilities management services to clients in various sectors (technology, defense, finance, and manufacturing) across a variety of organizational sizes (small startups to marquee Fortune 50 companies). This year, Cobalt introduced its new door integration capability that enables robots to seamlessly pass through areas closed off by a door using wireless technology to communicate with access control readers—a first for the industry. In addition to its client base, Cobalt has expanded its engineering and operations teams and enhanced its security and facilities teams, bringing its unparalleled customer service and performance to new markets. Today’s organizations face several physical security challenges—cost-effectively protecting people, assets and intellectual property while ensuring the seamless flow of operations. Trained remote personnel We believe Cobalt’s robotic security guards are revolutionizing the security services space" Cobalt combines its autonomous mobile robots with highly trained remote personnel to provide a new level of situational awareness and real-time response. Cobalt’s robots patrol the workplace, leveraging AI to detect anomalies—open doors, environmental risks or malicious intruders—and then Cobalt’s security specialists can respond in real-time to address any event—whether it’s related to security, facilities or customer service. This unique human-in-the-loop model has enabled Cobalt to position itself as a key player in the physical security arena. “We believe Cobalt’s robotic security guards are revolutionizing the security services space and providing an unmatched experience for customers,” said Kris Fredrickson, Partner at Coatue. “In addition, we have been thoroughly impressed with the team’s philosophy that a great physical security service should positively impact not only the company’s operations but its culture as a whole.”
Senstar, a provider of video management systems (VMS) and perimeter intrusion detection systems (PIDS), is pleased to announce its products were recently selected to protect five airports in various locations around the world. These sites join the list of hundreds of civilian and military airports currently using Senstar products. “Airport infrastructure and assets represent a vital economic engine for many cities and countries making them prime targets for vandals, thieves and terrorists,” said Senior Vice President and Chief Operating Officer Jeremy Weese. “Senstar products help to keep operations, goods and people safe and moving.” Improve security monitoring Senstar’s VMS, video analytics, and associated hardware reduce operator workload and improve overall security monitoring by automatically detecting persons of interest, items left in public spaces, crowd formations, and wrong way movement between landside-airside egress points. These technologies also streamline operations and centralize IT management in the cloud, saving time and money. While Senstar VMS and PIDS are open platforms designed for integration with a wide variety of systems" Senstar’s PIDS provide early warning of unauthorized entry onto airport grounds, including into sensitive areas within the apron such as aircraft parking, fuel storage, electrical substations, and navigation/communication equipment areas. “While Senstar VMS and PIDS are open platforms designed for integration with a wide variety of systems, they work even better together,” said Mr. Weese. Perimeter intrusion attempt Built-in integration enables security personnel to monitor a wide range of sensors and cameras from a single workstation, with the end result being simplified operator interfaces and reduced response times. For a real world demonstration on the benefits of integrated VMS and PIDS solutions, watch Senstar’s surveillance video of a recent perimeter intrusion attempt. The new airport projects use the following Senstar products: Symphony VMS (manages 250 cameras), Enterprise Manager software (centralized cloud management), Thin Client network video display appliances, Face Recognition, Automatic License Plate Recognition, Left and Removed Item Detection, Outdoor People and Vehicle Tracker analytics, FiberPatrol® fiber optic fence-mounted intrusion detection system, and OmniTrax® buried cable intrusion detection system.
We live in an information and data-led world, and cybersecurity must remain top-of-mind for any organization looking to both protect business operation critical assets. Businesses without proper cyber measures allow themselves to be at risk from a huge list of threats - from cybercriminals conducting targeted spear-phishing campaigns - like the 2018 Moscow World Cup vacation rental scam, to nation-state actors looking to collect intelligence for decision makers - no organization is safe from innovative cyber threats. Security solutions enterprises Organizations can then set the groundwork necessary to stop malicious activity and keep their business’ data safe The evolving threat space means organizations need to ensure they have the most innovative prevention and detection frameworks in order to withstand adversaries using complex and persistent threats. When implementing new security solutions enterprises must start by assuming that there is already a bad actor within their IT environment. With this mindset, organizations can then set the groundwork necessary to stop malicious activity and keep their business’ data safe. As there is no one silver bullet that truly stops all cyberattacks, organizations must adopt a multipronged approach to be widely adopted to stop adversaries. This must include tracking, analyzing and pinpointing the motivation of cyber actors to stay one step ahead through global intelligence gathering and proactive threat hunting. In addition, deploying new technologies leveraging the power of the cloud give a holistic view of the continuously evolving threat landscape and thereby secure data more efficiently. Traditional security approach In today’s landscape, the propagation of advanced exploits and easily accessible tools has led to the blurring of tactics between statecraft and tradecraft. Traditional security approaches are no longer viable when it comes to dealing with the latest trends in complex threats. To make defending against these threats even more complicated, adversaries are constantly adapting their tactics, techniques and procedures (TTPs), making use of the best intelligence and tools. CrowdStrike’s latest Global Threat Report tracked the speed of the most notable adversaries including Russian, Chinese, North Korean and Iranian groups. As the adversaries’ TTPs evolve into sophisticated attack vectors defenders need to recognize we are amidst an extreme cyber arms race, where any of the above can become the next creator of a devastating attack. Russian efficiency is particularly high; they can spread through an enterprise network in 18 minutes 48 seconds on average, following the initial cyber-intrusion. Sophisticated cyber weapons Actors tend to use a simple trial and error technique where they test the organization's network So, reacting to threats in real-time is a priority. Bad actors are extremely vigilant and committed to breaking down an organization’s defenses, and speed is essential to finding the threats before they spread. Actors tend to use a simple trial and error technique where they test the organization's network, arm themselves with more sophisticated cyber weapons, and attack again until they find a vulnerability. This has highlighted the need for tools that provide teams with full visibility over the entire technology stack in real-time in order to meet these threats head-on. Traditional solutions are scan-based, which means they don’t scale well and can’t give the security teams context around suspicious activity happening on the network. They lack full visibility when a comprehensive approach is needed. Businesses without proper cyber measures allow themselves to be at risk from a huge list of threats - like the 2018 Moscow World Cup vacation rental scam Malicious Behavior Through leveraging the power of the cloud and crowdsourcing data from multiple use cases, security teams can tap into a wealth of intelligence collated from across a vast community. This also includes incorporating threat graph data. Threat graphs log and map out each activity and how they relate to one another, helping organizations to stay ahead of threats and gain visibility into unknowns. Threat graph data in conjunction with incorporating proactive threat hunting into your security stack creates a formidable 360-degree security package. Managed threat hunting teams are security specialists working behind the scenes facing some of the most sophisticated cyber adversaries through hands on keyboard activity. Threat hunters perform quickly to pinpoint anomalies or malicious behavior on your network and can prioritize threats for SOC teams for faster remediation. In-Depth knowledge Security teams need to beat the clock and condense their responseIt is key for security teams to have an in-depth knowledge of the threat climate and key trends being deployed by adversaries. The TTPs used by adversaries leave are vital clues on how organizations can best defend themselves from real-life threats. Intrusion ‘breakout time’ is a key metric tracked at CrowdStrike. This is the time it takes for an intruder to begin moving laterally outside of the initial breach and head to other parts of the network to do damage. Last year, the global average was four hours and 37 minutes. Security teams need to beat the clock and condense their response and ejection of attackers before real damage is done. Next-Generation solutions When managing an incident clients need to be put at ease by investigations moving quickly and efficiently to source the root of the issue. Teams need to offer insight and suggest a strategy. This can be achieved by following the simple rule of 1-10-60, where organizations should detect malicious intrusions in under a minute, understand the context and scope of the intrusion in ten minutes, and initiate remediation activities in less than an hour. The most efficient security teams working for modern organizations try to adhere to this rule. As the threat landscape continues to evolve in both complexity and scale, adequate budget and resources behind security teams and solutions will be determining factors as how quickly a business can respond to a cyberattack. To avoid becoming headline news, businesses need to arm themselves with next-generation solutions. Behavioral analytics The solution can then know when to remove an adversary before a breakout occurs Behavioral analytics and machine learning capabilities identify known and unknown threats by analyzing unusual behavior within the network. These have the ability to provide an essential first line of defense, giving security teams a clear overview of their environment. With this at hand, the solution can then know when to remove an adversary before a breakout occurs. Attackers hide in the shadows of a network’s environment, making the vast volume and variety of threats organizations face difficult to track manually. The automation of responses and detection in real-time is a lifeline that organization cannot live without as adversaries enhance and alter their strategies. Adversaries continue to develop new ways to disrupt organizations, with cybersecurity industry attempting to keep pace, developing new and innovative products to help organizations protect themselves. These technologies empower security teams, automating processes and equipping security teams with the knowledge to respond quickly. Organizations can set themselves up for success by integrating the 1-10-60 rule into their security measures, giving them an effective strategy against the most malicious adversaries.
Critical infrastructure facilities that must secure large areas with extended outer boundary and numerous entry points, present a particularly difficult challenge when it comes to perimeter protection. As such, true end-to-end perimeter protection calls for the utilization of a sophisticated, multi-layered solution that is capable of defending against anticipated threats. Integrated systems that incorporate thermal imaging, visible cameras, radar and strong command and control software are crucial for covering the various potential areas of attacks. Let’s look at these technologies and the five key functions they enable to achieve an end-to-end solution that provides intrusion detection, assessment and defense for the perimeter. 1. Threat Recognition The first step in effectively defending against a threat is recognizing that it’s there. By combining state-of-the-art intrusion detection technologies, facilities can arm themselves with a head start against possible intruders. An exceptionally important aspect of effective perimeter protection is the ability to conduct 24-hour surveillance, regardless of weather conditions, environmental settings, or time of day. Visible cameras do not perform as well in low light scenarios and inclement weather conditions. However, thermal imaging cameras can provide constant protection against potential intruders, regardless of visual limitations, light source or many environmental factors. In fact, facilities such as power stations located near bodies of water can use thermal cameras to create what is known as a “thermal virtual fence” in areas where they are unable to utilize the protection of a physical fence or wall. Deterring suspicious activity can be achieved through real-time two-way audio, a simple but powerful tool Critical infrastructure applications require not only continuous video surveillance and monitoring, but also a solution that yields highly reliable intrusion detection, with fewer false alarms. This need makes advanced video analytics a must for any adequate surveillance system. Features like dynamic event detection and simplified data presentation are game changing in supporting accurate intrusion analysis and facilitating a proactive response. Advanced analytics will provide multiple automated alarm notification options, including email, edge image storage, digital outputs or video management software (VMS) alarms. Incorporating high quality, unique and adaptive analytics can virtually eliminate false alarms, allowing security personnel to respond more efficiently and effectively, while also lowering overall cost for the end user. While surveillance technologies such as radar, thermal imaging and visible cameras, or video analytics work well on their own, utilizing all of these options together provides an advanced perimeter detection system. For example, ground surveillance radar can detect possible threats beyond the fence line as they approach and send a signal to pan-tilt-zoom (PTZ) cameras, triggering them to slew to a specific location. From there, embedded analytics and visible cameras can further identify objects, notify authorized staff, and collect additional evidence through facial recognition or high-quality photos. 2. Automatic Response Systems Once an intrusion attempt is discovered, it is important to act fast. Organizing a response system that can initiate actions based on GPS location data, such as the slewing of PTZ cameras, automated intruder tracking or activated lighting sensors, greatly increases staff’s situational awareness while easing their workload. For instance, thermal imagers deployed in conjunction with video analytics can be used to generate an initial alarm event, which can then trigger a sequence of other security equipment and notifications for personnel to eventually respond to. Having all of this in place essentially lays the entire situation out in a way that allows responders to accurately understand and evaluate a scene. Power stations located near bodies of water can use thermal cameras to create a “thermal virtual fence” in areas where they are unable to utilize the protection of a physical fence or wall 3. Deterring Suspicious Activity After the designated auto-response mechanisms have activated and done their job, it is time for responders to acknowledge and assess the situation. From here, authorized personnel can take the next appropriate step toward defending against and delaying the threat. Deterring suspicious activity can be achieved through real-time two-way audio, a simple but powerful tool. Often, control room operators can diffuse a situation by speaking over an intercom, telling the trespasser that they are being watched and that the authorities have been notified. This tactic, known as ‘talk down’, also allows officers to view the intruder’s reaction to their commands and evaluate what they feel the best next step is. If individuals do not respond in a desired manner, it may be time to take more serious action and dispatch a patrolman to the area. 4. Delay, Defend, Dispatch And Handle The possible danger has been identified, recognized and evaluated. Now it is time to effectively defend against current attacks and slow down both cyber and physical perpetrators’ prospective efforts. Through the use of a well-designed, open platform VMS, security monitors can manage edge devices and other complementary intrusion detection and response technologies, including acoustic sensors, video analytics, access control and radio dispatch. A robust VMS also enables operators to control functions such as video replay, geographical information systems tracking, email alerts and hand-off to law enforcement. With the right combination of technologies, facilities can take monitoring and evidence collection to the next level The primary purpose of the delay facet of the overall perimeter protection strategy is to stall an attempted intrusion long enough for responders to act. Access control systems play a key role in realizing this objective. When a security officer sees a non-compliant, suspicious individual on the camera feed, the officer can lock all possible exits to trap them in one area all through the VMS. 5. Intelligence: Collect Evidence And Debrief More data and intelligence collected from an event equals more crucial evidence for crime resolution and valuable insight for protecting against future incidents. With the right combination of technologies, facilities can take monitoring and evidence collection to the next level. One innovative resource that has become available is a live streaming application that can be uploaded to smart phones and used for off-site surveillance. This app gives personnel the power to follow intruders with live video anywhere and allows operators to monitor alarm video in real-time. Geographic Information System (GIS) maps are computer systems utilized for capturing, storing, reviewing, and displaying location related data. Capable of displaying various types of data on one map, this system enables users to see, analyze, easily and efficiently. Multi-sensor cameras, possessing both visible and thermal capabilities, provide high-contrast imaging for superb analytic detection (in any light) and High Definition video for evidence such as facial ID or license plate capture. Integrating these two, usually separated, camera types into one helps to fill any gaps that either may normally have. Still, in order to capture and store all of this valuable information and more, a robust, VMS is required. Recorded video, still images and audio clips serve as valuable evidence in the event that a trial must take place to press charges. Control room operators can use data collection tools within their VMS to safely transfer video evidence from the field to the courtroom with just a few clicks of their mouse. More advanced video management systems can go a step further and package this data with other pertinent evidence to create a comprehensive report to help ensure conviction.
Global and domestic threats have highlighted the need for tighter security across all verticals. One of the technologies that has redefined situational awareness and intrusion detection is thermal imaging. Once a technology exclusively manufactured for the military operations, thermal cameras today are deployed across hundreds of security applications and continue to see strong demand in existing and emerging commercial markets. With thermal technology, security personnel can see in complete darkness as well as in light fog, smoke and rain Technology Overview And Early Adoption What distinguishes thermal cameras from optical sensors is their ability to produce images based on infrared energy, or heat, rather than light. By measuring the heat signatures of all objects and capturing minute differences between them, thermal cameras produce clear, sharp video despite unfavorable environmental conditions. With thermal technology, security personnel can see in complete darkness as well as in light fog, smoke and rain. Originally a military developed, commercially qualified technology, the first thermal cameras for military and aircraft use appeared in the 1950s. By the 1960s, the technology had been declassified and the first thermal camera for commercial use was introduced. However, it wasn’t until the late 1990s - when FLIR Systems introduced a camera with an uncooled thermal detector - when the technology began to see substantial adoption beyond government defense deployments. Installations At Critical Infrastructure Sites In the 2000s, industrial companies were some of the first adopters of thermal, using the technology for predictive maintenance to monitor overheating and machine malfunctions. In the years following the September 11 terrorist attacks in 2001, there was an increase in thermal camera installations across critical infrastructure sites. Stricter security requirements drove the deployment of thermal cameras for perimeter protection, especially in the nuclear power sector. Thermal cameras produce clear video in daylight, low light or no light scenarios and their sharp images result in higher performing analytics In 2010, the U.S. Nuclear Regulatory Committee released its 73.55 policy, which states nuclear facilities must “provide continuous surveillance, observation and monitoring” as a means to enhance threat detection and deterrence efforts onsite. Because thermal cameras produce clear video in daylight, low light or no light scenarios and because their sharp images result in higher performing analytics, thermal cameras quickly became the preferred option for nuclear facilities. Likewise, following the 2013 sniper attack on PG&E Corporation’s Metcalf transmission substation, the Federal Energy Regulation Commission introduced the Critical Infrastructure Protection Standard 014 (CIP-014). The policy requires utilities to identify threats to mission critical assets and implement a security system to mitigate those risks. This statute also led to more thermal installations in the utility sector as thermal cameras’ long-range capabilities are ideal for detection of approaching targets beyond the fence line. The demand from both industrial and critical infrastructure entities, as well as other factors, helped drive volume production and price reduction for thermal, making the technology more accessible to the commercial security marketplace. Commercial Applications In recent years, the increasing affordability of thermal cameras along with the introduction of new thermal offerings has opened the door to new commercial applications for the technology. In the past, thermal cameras were designed for applications with enormous perimeters, where the camera needed to detect a human from 700 meters away. Locations like car dealerships, marinas and construction supply facilities can be protected by precise target detection, thermal analytic cameras providing an early warning to security personnel Today, there are thermal cameras specifically designed for short- to mid-range applications. Developed for small to medium enterprises, these thermal cameras ensure property size and security funds are no longer barriers to adoption. Lumber yards, recreation fields and sports arenas are some of the commercial applications now able to implement thermal cameras for 24-hour monitoring and intrusion detection. Affordable thermal cameras with onboard analytics have become attractive options for commercial businesses Innovation And Advancements Innovation and advancements in the core technology have also spurred growth in thermal camera deployment, providing faster image processing, higher resolution, greater video analytic capabilities and better camera performance. In particular, affordable thermal cameras with onboard analytics have become attractive options for commercial businesses that need outdoor, wide area protection. Car dealerships, marinas and construction supply locations all store valuable merchandise and materials outside. Without protection, these assets are vulnerable to vandalism and theft. However, by providing precise target detection, thermal analytic cameras provide an early warning to security personnel so that they can intervene before a crime is committed. By helping to deter just one incident, the thermal solution delivers a clear ROI. New Market Opportunities Not only are there more thermal cameras in use today than ever before, but there are also more thermal sensors being integrated with other multi-sensor systems, driving the adoption of thermal in new markets. For large perimeter surveillance applications, thermal is repeatedly being integrated with radar and drones to expand situational awareness beyond the point of fixed cameras. Users get immediate, accurate alerts of approaching targets and evidentiary class video for target assessment In the commercial market, thermal imagers are combined with optical sensors, analytics and LED illuminators into one solution that integrates with central monitoring station platforms. By bringing these technologies together, users get immediate, accurate alerts of approaching targets and evidentiary class video for target assessment. The result is a lower number of false positives, reducing the total cost of ownership for the solution. These multi-sensor solutions also feature two-way audio capabilities, which enable remote security officers to act as “virtual guards” and speak to intruders in real-time to dissuade them from illegal activity. The introduction of solutions that integrate all these state-of-the-art technologies under one unit reduces the amount of capital and infrastructure needed for deployment. Consequently, more small businesses and alarm monitoring companies can implement advanced perimeter security technologies like thermal sensors, some for the very first time. Thermal cameras have gone from military defense devices to widespread commercial security cameras Multi-Sensor Thermal Solutions Multi-sensor solutions featuring thermal are quickly gaining traction and opening the door to new business opportunities for the security channel. One of the primary reasons for the strong market interest in these systems is they enable integrators to increase their recurring monthly revenue (RMR). With intense price competition and eroding margins on CCTV equipment, integrators have to rely on RMR to grow their businesses. Offering remote video monitoring services and virtual guarding technologies is one of the best ways to do so. Additionally, there is a clear demand for it. Central stations are continually looking for new technologies to offer their customers and businesses are interested in economical alternatives to physical guards. In conclusion, thermal cameras have gone from military defense devices to widespread commercial security cameras that are a substantial segment of the outdoor security protection market. From nuclear power plants to construction locations, thermal technology is being implemented to secure sites around the globe.
Intelligent solutions, such as those derived from artificial intelligence, help critical infrastructure organizations make sense of vast amounts of data. These integrated applications, such as advanced video analytics and facial recognition, can automatically pinpoint potential breaches and significant events, and send alerts to the appropriate personnel, departments, and agencies. These solutions can be powerful in unifying disparate command center technologies, fusing critical data input from emergency calls and responder activity to enhance situational awareness. Electrical substations are particularly vulnerable (and in need of extra security) due to their role in power distribution and the nature of their equipment. The challenge power utilities worldwide are facing is finding an affordable solution, which can help detect, deter and facilitate an informed response to a substation security event. Data capture form to appear here! U.S. regulations In the United States, this need is furthered by the physical security mandate CIP-014 issued by the North American Electric Reliability Corporation (NERC), calling for identification of security issues, vulnerability assessments and deployment of appropriate processes and systems to address. CIP-014 identification of security issues, vulnerability assessments and deployment of appropriate processes and systems to address CIP-104 specifically calls for implemented security plans that include measures to deter, detect, delay, assess, communicate, coordinate and respond to potential physical threats and vulnerabilities. Manufacturers of video and other systems are designing products to serve the critical infrastructure market. For example, Dahua Technology offers explosion-proof cameras with a combination of rugged reliability and superior optics that is a fit for surveillance of explosive and corrosive environments, including chemical plants, refineries, and other facilities in the oil and gas industry. This explosion-proof series of cameras are housed in enclosures that are certified to the ATEX and IECEx standards for equipment in explosive atmospheres. Each explosion-proof camera features Dahua’s Starlight technology for ultra low-light sensitivity and high-definition sensors that deliver clear images in real-time. They are IP68-rated to prevent water and dust ingress. Each explosion-proof camera features Dahua’s Starlight technology for ultra low-light sensitivity and high-definition sensors that deliver clear images in real-time Video footage in extreme temperatures Another manufacturer, Videotec, offers a range of cameras and housings that provide video footage regardless of aggressive external factors, such as ice cold, scorching heat, desert sand, the force of sea or wind, total darkness, pollution, corrosion and even explosive agents. SightSensor thermal systems enable a utility to detect and respond to substation security incidents across multiple sitesSightLogix smart thermal camera systems have been deployed to protect substations for electric utilities and other critical infrastructure facilities. SightSensor thermal systems enable a utility to detect and respond to substation security incidents across multiple sites, ranging from copper theft to vandalism while also meeting regulatory compliance. At each substation facility, Thermal SightSensors are positioned along the perimeter, and are paired with a high-resolution pan-tilt-zoom camera for alarm assessment. When a Thermal SightSensor detects an intruder, the target’s location information is sent over the network to a SightTracker PTZ controller, which automatically zooms and steers PTZ cameras to follow the intruder. The target’s location is also displayed on a topology site map to provide real-time situational awareness. Alarms are sent to the utility’s 24-hour security operations center, which will contact law enforcement in real time when unauthorized intrusions are detected. Integrated intrusion detection and lighting systems The Senstar LM100 hybrid perimeter intrusion detection and intelligent lighting system is simplifying security at one U.S. electrical utility company. For years, the utility company had integrated its perimeter intrusion detection and lighting systems. The company has now installed the Senstar LM100 which provides detection and lighting in one product and saves them over $80,000 per site. The savings are a result of the reduction of electrical requirements, conduit, grounding, and associated labor, as well as the removal of certain equipment from project scope that are required for the two-system integration. The Senstar LM100’s perimeter LED-based lighting acts as an initial deterrent. If an intruder persists and an attempt to cut, climb or otherwise break through the fence is detected, the closest luminaire begins to strobe, and an alert is sent via a security management system. The intruder knows immediately they have been detected and that their exact location is known by security and others in the vicinity.
From New York to California, city and state governments throughout the United States are second-guessing the use of facial recognition technologies by police departments and other government entities. San Francisco was among the first major cities to issue a ban on ‘secret surveillance’ tools such as facial recognition. Now backlash against public use of facial recognition appears to be gathering steam, and some technology trials have faced additional scrutiny. Oakland, California, has joined San Francisco in banning use of facial recognition. Oakland’s diverse population has led to concerns about facial recognition systems that are prone to misidentify people of color. Limiting the use of facial recognition technology The policy would limit use of live facial recognition to situations of credible terrorism threatsNearby Berkeley, California, is considering its own prohibition of facial recognition systems by city government. Somerville, Massachusetts, has banned city departments from buying or using facial-recognition technology for any purpose. A Detroit civilian oversight board and the Board of Police Commissioners are reviewing a formal policy that would require other evidence to be used along with biometric search results to confirm a suspect’s identity. The policy would also limit use of live facial recognition to situations of credible terrorism threats. At the state level, Massachusetts and Michigan are considering moratoriums on use of facial recognition, and a bill in California would forbid police use of facial recognition in body cameras. There is a law in Illinois that requires companies to get consent from customers before collecting biometric information. Installing cameras and facial recognition system Lockport Schools in western New York state have recently drawn attention to their planned use of facial recognition. The school system plans to install dozens of surveillance cameras and a facial recognition system using $1.4 million of a state grant. The Aegis system (by SN Technologies in Canada) creates an ‘early warning system’ that informs staff if it detects individuals who are not allowed in the schools. The school system plans to install dozens of surveillance cameras and a facial recognition system The system will screen every door and also use object recognition to detect 10 types of guns. An initial implementation of the program this summer is meant to troubleshoot the system, train officials on its use, and discuss procedures with law enforcement in the event of an alert. Full implementation is planned in the fall. Abuse of facial recognition system However, New York State Education Department has asked Lockport Schools to delay use of facial recognition technology on students pending further evaluation, and a bill introduced in the New York State Assembly would halt use of the technology for a year for further study. The city of Orlando and Orlando Police Department are testing facial recognition technology to address public safety Abuse has also been a concern. A report from Georgetown Law’s Center on Privacy and Technology details widespread abuse of the New York Police Department’s facial recognition system, including image alteration and use of non-suspect images. The charges raise questions about the propriety of how expanding technical capabilities of facial recognition systems are implemented. Testing facial recognition for public safety The city of Orlando, Florida, and Orlando Police Department are testing facial recognition technology to address public safety, partnering with Amazon Web Services. One pilot ended in June 2018, and the most recent ended on July 18, 2019. Orlando has no immediate plants regarding future pilots. Light bulb-sized cameras were affixed to traffic signal poles along the city’s palm-tree-lined avenues. If a camera ‘sees’ someone, it sends a live video feed to Amazon’s facial ‘Rekognition’ system, cross-referencing the face against persons of interest. Only images of Orlando police officer volunteers were used for the test. Recently Congress has become attentive to privacy concerns and, now, the Senate is considering a bill that would limit businesses from collecting and tracking facial recognition data without consent.
Video surveillance cannot address all the security challenges in education, but it is a valuable tool and among the least obtrusive options available. And the list of security challenges that video can address grows every day. Video systems can provide real-time monitoring of school premises and facilitate rapid response to incidents. New advances such as video analytics are currently underutilized in the education arena. Historically, video has been used as a forensic tool in the education market, providing critical information about an incident after the fact. But that generalization is changing. Today, networking enables video images to be shared throughout a school system, traveling over existing networks, empowering a more centralized security management structure, and making video more valuable. In particular, higher education institutions are more likely to view live video, given the larger campuses, greater number of buildings, and more public areas where staff and students congregate. Challenges for securing a school environment Panoramic cameras are one tool to address challenges, as a single 360-degree camera can replace between 4 and 5 PTZ camerasMultiple challenges in the education market for security goods and services (from a video perspective) include wide open spaces that make securing schools with video surveillance cameras difficult since the vast amount of coverage required can be cost-prohibitive. Second, state and federal regulations must be taken into account and balanced with the need to protect student privacy. Finally, schools and colleges face dwindling budgets, which means security solutions must deliver more coverage and functionality, while also being cost-effective to deploy. Panoramic cameras are one tool to address these challenges, as a single 360-degree camera can replace between four and five traditional pan-tilt-zoom cameras, resulting in fewer cameras and more coverage – all at a lower cost for hardware and licensing. Data capture form to appear here! Intelligent cameras with video analytics Video surveillance with video analytics can be deployed to monitor areas at certain times of day. For example, once school starts, there shouldn’t be a lot of activity in the parking lot or in particular areas around the school. For these situations, intelligent cameras with video analytics can be used to detect activity in those areas of interest to alert school security that something may need their attention. Radar detection is ideal for perimeters, where a device can be set up unobtrusively to alert when someone enters a particular area. ACC 6 video management software with Avigilon Appearance Search technology provides advanced video analytics search The goal in a potentially dangerous situation is to speed up response times. The faster you’re able to detect something using technology, the faster you’re able to respond. Therefore, being able to identify something happening in a parking lot and alert school resource officers could provide 30 seconds or a minute head start for response, which can get the school into a lockdown situation and get first responders on site more quickly. Video cameras with low-Light capability There are video cameras available with extreme low-light capability to see in near-dark or complete darknessIt’s been shown that using lighting at night can deter crime. However, it can be expensive to keep a building and grounds illuminated all night, every night. To mitigate these concerns and potential costs, there are video cameras available with extreme low-light capability that allows them to see in near-dark or in some cases complete darkness. This allows a school to save money by turning lights off while achieving a level of surveillance performance similar to daytime deployments. Facing above-average student incident rates and student disciplinary concerns at some schools, a school system in the United States sought to upgrade its video surveillance system to allow better local and remote monitoring in important areas. Avigilon high-definition cameras with self-learning video analytics and access control solutions were installed in 101 schools, and ACC 6 video management software with Avigilon Appearance Search technology provides advanced video analytics search. A deep learning artificial intelligence search engine can sort through hours of footage and allow operators to click on a button and search for all instances of a person or vehicle across all cameras on a site, quickly and efficiently.
Globally renowned sensor solutions provider, HENSOLDT will equip the Norwegian Coast Guard vessel “Svalbard” with the latest version of its TRS-3D naval radar and MSSR 2000 IIFF System. This is already the second upgrade contract from the Norwegian Defense Materiel Agency as HENSOLDT is already under contract to equip the three new Arctic Coast Guard Vessels in the P6615 Program with the upgraded radar and IFF system. TRS-3D naval radar system Under both contracts worth more than € 27 m HENSOLDT will deliver four TRS-3D radars including the latest solid-state technology and signal processing software and will deliver them from 2021, in parallel to the building program of the new Arctic Coast Guard vessels. The TRS-3D includes a secondary radar MSSR 2000 I for Identification-friend-or-foe (IFF). It operates all current IFF modes, including the latest “Mode S/Mode 5 Level 1/2” standard answering the most recent NATO requirements. Our TRS-3D naval radar is an extremely reliable radar, particularly suited for littoral missions" “Our TRS-3D naval radar is an extremely reliable radar, particularly suited for littoral missions”, said HENSOLDT CEO Thomas Müller. “We are taking the upgrade contract of the Norwegian Coast Guard as proof of the customer’s satisfaction with our product and services”. Air and sea surveillance TRS-3D is a three-dimensional multimode naval radar for air and sea surveillance. It includes the ability to correlate plots and tracks of targets with the MSSR 2000 I identification system for automatic identification of vessels and aircraft which is essential to avoid friendly fire and to establish a comprehensive situation picture. It is used for automatically locating and tracking all types of air and sea targets and safe guidance of on-board helicopters. Thanks to its signal processing technologies, the TRS-3D is particularly suited for the early detection of low flying or slow moving objects under extreme environmental conditions. Naval surveillance and security More than 50 units of the radar are in operation with naval forces around the world. Among the ships equipped are frigates and corvettes of the German Navy, the US Coast Guard National Security Cutters and the "Squadron 2000" patrol boats of the Finnish Navy.
Each day, over 55,000 electrical substations in the United States funnel massive amounts of energy to homes and businesses across the country. An array of specialized equipment allows these facilities to keep up with demand, and each component must run smoothly to adequately transfer and distribute energy. Housing mission-critical assets vital to the community means that substations must track everything—from condition monitoring to intrusion and sabotage threats. Thermal imaging cameras, video classification analytics, and radiometric measurement offer unmatched maintenance and security insight for substations and help prevent costly issues that hurt the bottom line. AI and deep learning technologies Advancements in artificial intelligence technologies are expanding the capability of security systems Advancements in artificial intelligence and deep learning technologies are expanding the capability of security systems. As security solutions improve, customer expectations grow. Systems that were once limited to perimeter protection are now able to provide valuable process efficiency and maintenance information. Substations should consider integrating new technology that improves efficiency and safety as they move to satisfy NERC CIP-014 requirements. Problematic heating and cooling connections can plague substations. Overheating and burning a transformer is a costly, potentially multimillion-dollar error that can take several months to correct. Beyond damage costs, the abrupt loss of equipment can lead to extended service interruptions and significant revenue loss. The consequences of equipment failure highlight the importance of asset monitoring, asset resiliency, and predictive maintenance for substations. Radiometric thermal cameras Integrating cutting-edge technologies like radiometric thermal cameras and temperature trend analysis software allows facility operators to remotely inspect equipment and quickly detect issues, preventing overheating and fires. Image quality and software compatibility are vital in planning an asset monitoring ecosystem. To best serve both the security and condition monitoring needs of substations, thermal sensor manufacturer FLIR Systems and software developer Embedded Logix collaborated to create a multi-purpose solution. Security and asset monitoring For over 30 years, FLIR has developed security and asset monitoring solutions for utility providers For over 30 years, FLIR has developed security and asset monitoring solutions for utility providers. A full lineup of fixed and pan-tilt thermal cameras allow security operators to monitor assets and perimeters in complete darkness, smoke, fog, and harsh weather conditions. FLIR thermal cameras provide superior resolution, capturing sharp imagery and minute details for high-performance video analytics and immediate threat detection. Quick intervention during intrusions prevents escalation, and rapid detection with thermal imaging supports fast response time. Smart-LX Sensor Gateway Recognizing threats before they ever reach the fence line deters theft, vandalism, and assault, keeping facility personnel safe and reducing the risk of equipment repair and legal costs. As an industry leader in thermal imaging, FLIR looks to partner with other innovative solution providers to create more advanced technologies. Embedded Logix, a Detroit, Michigan-based test and measurement solutions provider for the utility, plastic, food, and metal industries emerged as an ideal partner to integrate smart analytics software into thermal sensors. Their Smart-LX Sensor Gateway is an open-architecture platform that features Smart-LX Analytics with support for infrared cameras, programmable logic controllers, and SCADA systems. It opened the door for a complete predictive maintenance solution. FLIR thermal cameras Partnering with FLIR means being in the center of the infrared universe" The Smart-LX system allows both maintenance and security personnel to leverage networked thermal imagers on a single platform. By 2012, Embedded Logix was FLIR’s exclusive smart sensor software partner for temperature trending in predictive maintenance, bringing the Smart-LX platform to FLIR thermal cameras. “Partnering with FLIR means being in the center of the infrared universe. We can’t imagine any better product lineup to feed data into our Smart-LX Analytics,” said Deborah McLeod, president of Embedded Logix. “We have bench tested many other brands over the years, but FLIR’s products always come out on top, and that is why we recommend FLIR cameras to our customers. When you combine Smart-LX Analytics with FLIR cameras you turn an incredible sensor into an extraordinary solution.” Smart-LX Analytics Embedded Logix Smart-LX Analytics read, process, analyze, and create a visualization of sensor readings, generating asset performance reports on trends and rules that can be sent to maintenance personnel for further assessment. The software adapts over time with customer input, relying on user feedback to create an expert system. The Smart-LX platform works with both legacy and new equipment, analyzing signals from all sensors and systems, and is capable of aggregating information into VMS, OSI PI, and SCADA platforms. The FLIR FC-R fixed thermal camera leverages a radiometric sensor for noncontact temperature measurement FLIR offers several high-performance thermal imaging solutions for Smart-LX integration, including the FLIR A310 and FLIR FC-R Series cameras. Dual thermal and optical sensors on the FLIR A310 PT offer reliable perimeter protection and automated condition monitoring while pan/tilt controls maximize coverage. The onboard radiometric thermal sensor measures slight changes in surface temperature, allowing the A310 PT to monitor hotspots on equipment and alert an operator if temperatures exceed preset levels. FC-R fixed thermal camera The FLIR FC-R fixed thermal camera leverages a radiometric sensor for noncontact temperature measurement. Onboard human and vehicle classification analytics offer reliable intrusion detection and work in tandem with external monitoring systems to quickly alert operators and security personnel. “FLIR’s innovative A310F, A310PT, and FC-R radiometric thermal cameras have been paramount in substation monitoring for years,” said Michael Chaffee, director of business development at FLIR. “With the addition of Embedded Logix and its SmartLX software, our customers can take FLIR thermal cameras to the next level. When combined, FLIR cameras and Smart-LX software create a data goldmine, allowing a more frequent analysis of substation assets right from the security control room.” Facility security FLIR and Embedded Logix systems revolve around facility security and asset monitoring FLIR and Embedded Logix systems revolve around facility security and asset monitoring. Installing different cameras and network components throughout a substation creates an ecosystem ready to detect and prevent issues. Most security and asset monitoring systems from FLIR and Embedded Logix begin with several FLIR FC-ID cameras along the perimeter of the substation, one A310 PT mounted in the center of the substation, FC-R or A310F cameras installed around high priority assets, and several Smart-LX Sensor Gateways. When the system detects an object of interest, FLIR FC-ID cameras trigger the A310 PT camera to track and zoom on the object for further threat assessment, allowing security personnel to quickly and safely gauge the situation. Condition monitoring thermal imagers can continuously survey any asset in their field of view. Fixed FLIR A310F camera Fixed FLIR A310F and FC-R cameras monitor specific equipment 24/7, while the A310 PT can focus on multiple areas, viewing transformer connections, incoming power transmission lines, switch gears, fans, and more. Generated reports compare the performance of similar assets across all stations Smart-LX Sensor Gateways control the A310 PT preset scanning to gather temperature information on equipment, triggering an alarm if a temperature exceeds the preset threshold. Generated reports compare the performance of similar assets across all stations, address historical temperature trends, and label each temperature reading with the substation location, asset ID, and asset class information. This reporting is vital, as temperature trends can indicate trouble even when alarms remain untriggered. Remote monitoring “If the temperature is rising and falling on one asset, but the temperature on the other assets are steady, it can indicate a problem,” McLeod explained. “Even if the asset doesn’t reach the temperature threshold, the temperature slowly creeping up to that threshold is valuable information.” FLIR and Embedded Logix systems leverage remote monitoring to catch issues before they occur, preventing expensive downtime and maximizing substation efficiency. Predictive maintenance programs can identify poor-performing components, allowing operations teams to decide whether to proactively replace components or to continue monitoring. An unknown failure could cause catastrophic damage to other substation elements, causing customer outages and costing the utility millions of dollars. Thermal imaging Smart-LX Sensor Gateways also allow thermographers to inspect equipment remotely “The FLIR and Embedded Logix solution allows you to qualify with more frequency,” said Chaffee. “It ultimately enables you to save money and identify failures sooner. It’s much more expensive to replace a component after failure versus pre-failure. When a failure happens, you shut down the substation and part of the grid, which costs a lot of money.” Smart-LX Sensor Gateways also allow thermographers to inspect equipment remotely, improving efficiency during repairs. Traditionally, a thermographer would report to a substation to manually inspect equipment in need of service. Using a handheld thermal imager, the thermographer would take temperature measurements and check for load balance to determine whether equipment should be taken offline for repair. The need for a pre-work assessment and post-repair verification can make for long days. Embedded Logix Smart-LX Sensor Gateways remove this pain point. Live data access The Smart-LX Sensor Gateways give thermographers the ability to inspect equipment remotely and access live data from each networked FLIR thermal camera. Real-time temperature measurement and analytics allow the maintenance crew to confirm repairs or safely identify any additional issues. Thermographers would only need to go to a site when something is critical" “The FLIR and Embedded Logix solution enhances the role of thermographers,” Chaffee said. “Not needing to drive hundreds of miles to do a regularly scheduled thermal scan saves a lot of money. Your thermography team can scan safely, and with more frequency, from the security operations center. Thermographers would only need to go to a site when something is critical. Time is money, so being more productive as a utility and building a substation predictive maintenance program is an important element.” Critical asset monitoring Smart-LX Software works continuously to monitor critical equipment and uncover even small changes that can indicate impending failure. Intelligent maintenance and security systems are making substations safer and more efficient, positively impacting the bottom line. The insurance deductible of a significant substation asset can be hundreds of thousands of dollars. Detecting just one instance of equipment failure can prevent inordinate costs. “The Smart-LX Software solution reduces the cost of an event by detecting it much earlier. Instead of detecting a fire, you’re preventing a fire,” McLeod added. “It’s important for all stakeholders that utilities monitor changes in asset health as a means of improving reliability and reducing the total cost of repairs. Asset security and management Utilities are moving towards proactive deterrence and away from reactive monitoring He adds, “Stakeholders want to see that steps are being taken to reduce insurance claims from unnecessary escalations when a malfunctioning asset is not discovered until it fails and takes out expensive assets or infrastructure around it. Preventing costly downtime by repairing equipment at the first sign of trouble can reduce the number of unscheduled downtime events dramatically and create significant cost-savings.” Leveraging radiometric thermal cameras and analytics for both security and asset monitoring represents a paradigm shift. Utilities are moving towards proactive deterrence and away from reactive monitoring. Substation security FLIR radiometric thermal cameras and Embedded Logix Smart-LX Sensor Gateways safeguard substations and reduce the risk of critical equipment failure. Investing in stronger security keeps substations and their assets safe, and innovative, multipurpose solutions from FLIR and Embedded Logix create a win-win for utility providers throughout the country.
Thermal imaging is a technology that can provide many benefits in a wide range of applications. In particular, thermal imaging cameras have been deployed successfully as highly affordable solutions in the security industry. Accepted throughout the industry as the best 24-hour visual surveillance imaging solutions available, thermal security cameras are vital tools in securing borders, airports, sea ports, nuclear facilities, and other critical infrastructure. Today these affordable solutions are also protecting homes, corporate campuses, industrial facilities and retail businesses. Infrared-Illuminated cameras They can easily detect intruders and other potential hazards in any weather Thermal security cameras let people see what their eyes can’t: invisible heat radiation either emitted or reflected by all objects, regardless of lighting conditions. Because they see heat, not light, thermal cameras are effective tools in any security setting. They can easily detect intruders and other potential hazards in any weather, as well as day and night. Cameras that create images based on visible light—such as conventional CCTV or infrared-illuminated cameras— have the advantage of creating images that are familiar and easy to interpret. Unfortunately, the ability of a given detector, whether the human eye or a camera sensor, to create these images relates directly to the amount of light available. At night, for instance, when there isn’t much visible light, objects appear faint, or not at all. Thermal imaging cameras In contrast, thermal cameras make pictures from heat, not light, having nothing whatsoever to do with reflected light energy. They see the heat given off by everything under the sun. Everything we encounter in daily life creates or reflects heat energy, called a ‘heat signature,’ which thermal cameras can see clearly. Another limitation of relying on visible-light detection is visual contrast. Regular cameras that capture only visible light can be fooled by visual camouflage, or situations where similar colors or patterns blend together and, thus, obscure objects or people that need to be detected. Thermal imaging cameras don’t suffer this same problem. For example, an intruder standing under a densely-branched tree may be hard to detect using an IR-illuminated camera, but with a thermal imaging camera, the intruder would be clearly visible. Providing constant protection One of the biggest benefits of thermal imaging comes in the domain of security These advantages over visible cameras have led to the wide spread use of thermal to detect the presence of people in restricted or suspect areas, assess the tactical situation, and respond accordingly. No one within the view of a thermal camera can hide their heat. Thermal security cameras are the best tool to determine how many intruders are present, and, consequently, how many officers or agents should respond to meet the threat. One of the biggest benefits of thermal imaging comes in the domain of security. Security cameras have become a staple of protection for many (if not all) major businesses across the globe. In such a domain, the need to produce images of surrounding perimeters is critical to providing constant protection against potential intruders. False alarms experienced No matter what you need to see, or what perimeter you need to protect, thermal security cameras let you see clearly, even in total darkness, and through camouflaging foliage, smoke, dust, and light fog. Another reason why thermal imaging cameras often prove cost-effective is that they help reduce the number of false alarms experienced in a business protection scenario. Visible light cameras can be easily fooled by many naturally-occurring phenomena, such as blowing trees, shadows, insects, birds, or oncoming cars. In terms of motion detection, microwave, fence sensors, motion sensors, RAFID, and radar can all detect a possible intrusion, but they are essentially ‘blind’ technologies compared to thermal imaging. When a motion sensor is triggered, a user still needs an additional method of assessing the nature of the alarm, in order to determine the most appropriate response. For example, is it a person climbing the fence or just a harmless squirrel? CCTV security system Because of thermal security cameras’ high-contrast video output, security professionals have found that they work very well with video analytics. They can provide more reliable alarming with fewer false reports than visible-light cameras, even during the day. Thermal imaging security cameras offer both alarming capabilities and reliable images – two solutions in one. Prices for thermal imaging cameras have come down substantially in recent years Thermal imaging cameras are an affordable option for many businesses that want to ensure they have the best security and protection available. Prices for thermal imaging cameras have come down substantially in recent years, to the point where they are on par with regular visible-light cameras, while providing the superior ability to capture images that in many situations regular cameras simply cannot match. In addition, the total cost of ownership of a security system with thermal imaging cameras is, in general, much lower than a CCTV security system, for two main reasons. Monitor multiple areas First, a business would require fewer thermal imaging cameras than if deploying CCTV cameras, thanks to the excellent range performance of thermal imaging cameras. Since each camera needs only a mast for mounting, power, and a video feedback connection, fewer cameras are required. Business can keep their infrastructure simple, minimizing maintenance costs. Another area of cost savings is that thermal imaging cameras work perfectly in complete darkness and don’t require any lighting to maintain security and protection. Not only is lighting expensive to install, it also requires a great deal of electricity to keep those lights on all night. Businesses that wish to monitor multiple areas of their premises would be wise to deploy one or more thermal imaging cameras to provide the best protection against potential intruders, especially at night, when visible light is either low or non-existent. In short, any business that wants to achieve the maximum level of security and protection of their intellectual and physical property should consider deploying a thermal imaging solution.
EchoGuard receives FCC Equipment Authorization allowing widespread deployment of the radar for security, surveillance, and airspace management applications. EchoGuard radar Echodyne, the manufacturer of innovative, high-performance radars for government and commercial markets, announces that it has received approval from the FCC for widespread deployment of its EchoGuard radar for radiolocation and radionavigation in the United States. FCC Equipment Authorization allows the radar to be used throughout the US for ground, airspace surveillance The FCC Equipment Authorization allows the radar to be used throughout the United States for ground and airspace surveillance applications that detect and track potential security threats with high accuracy and for ground-based airspace management applications that ensure safe navigation of commercial drone missions. Electronically Scanning Array radar Echodyne's innovative metamaterials technology and powerful software combine to create an electronically scanning array (ESA) radar in a compact, solid-state format at commercial price points for the very first time. The radar has been demonstrating award-winning performance for government, law enforcement, security, and UAS / UTM customers for some time via experimental licenses. "We are excited that EchoGuard has received this authorization allowing its widespread adoption in the US," said Eben Frankenberg, CEO of Echodyne. "With the growing number of troubling drone incursions at airports, stadiums, and other facilities, there is tremendous demand for high-performance radar sensors. Tackling drone threats Eben adds, "Our innovative radar technology and software greatly increases the ability for security systems to accurately detect and track drone threats, as well as improves ground tracking of people, vehicles, and vessels. Our radar outperforms every other radar in its class, is priced for commercial markets, and has proven to be the best mid-range surveillance radar in the market." Features of the EchoGuard high-performance radar include: True electronic beam-steering with market-leading C-SWaP attributes; Long-range detection with high reliability and accurate tracking of multiple, concurrent air and ground targets; and Easy integration into sensor fusion and security systems for unmatched 3D situational awareness.
Round table discussion
The definition of a standard is “an authoritative principle or rule that usually implies a model or pattern for guidance, by comparison with which the quantity, excellence, correctness, etc., of other things may be determined.” In technology markets, such as physical security, standards are agreed-upon language, specifications or processes that are used across the board by multiple stakeholders to enable easier interconnectivity and smoother operation of systems. We asked this week’s Expert Panel Roundtable: How are standards shaping change in the physical security market?
Cybersecurity has become the ultimate buzzword in the physical security market. And it also represents one of the industry’s most intractable challenges. Several years ago, the problem with cybersecurity was lack of awareness among physical security practitioners. It’s now safe to say that awareness has increased. Everyone today talks about cybersecurity, but has it helped the larger problem? We asked this week’s Expert Panel Roundtable: Is greater awareness helping to increase the cybersecurity of physical security systems?
Our Expert Panel is an opinionated group on a wide variety of topics, and we are dedicated to providing a useful and flexible forum to share those opinions. This week, our panelists address a range of opinions about several self-selected topics, culled from the large number of Expert Panelist responses we have collected in the last year. In this Expert Panel Roundtable article, we will share these varied and insightful responses to ensure they are not lost to posterity!
Intrusion detection: Manufacturers & Suppliers
- DSC Intrusion detection
- Optex Intrusion detection
- Vanderbilt Intrusion detection
- Bosch Intrusion detection
- NetworX Intrusion detection
- RISCO Group Intrusion detection
- Texecom Intrusion detection
- Visonic Intrusion detection
- Pyronix Intrusion detection
- Honeywell Security Intrusion detection
- Climax Technology Intrusion detection
- Gallagher Intrusion detection
- Senstar Intrusion detection
- Enforcer Intrusion detection
- CIVINTEC Intrusion detection