Human face images, fingerprints, cards and passwords can be recorded to the face recognition access standalone. With face detection box; the largest face among faces that appear at the same time is recognised first; the maximum face size can be configured on the web. Face recognition distance is 0.3m–2m , human height range is 1.1m–2.4m. Face verification accuracy>99%; face comparison speed ≤0.5s per person; false recognition rate<0.1%. Profile faces can be recognised; face recognition angle can be adjusted, the range is 0°–90°. Supports 30,000 users, 30,000 cards, 30,000 passwords, and 50 administrators. Support liveness detection. Supports duress alarm, tamper alarm, intrusion alarm, door contact timeout alarm, and illegal card exceeding time alarm. Has six user levels: general users, patrol users, blacklist users, VIP users, guests, and disabled users. Attendance records can be uploaded to the management platform
Gallagher Command Centre is a powerful access and control solution designed to give you complete site control. Fully configurable to suit the unique needs of your site, Command Centre allows you to define, manage and report on all aspects of your system. Everything that happens on-site is relayed to your Command Centre operators in real time, enabling a swift and appropriate response to security threats. Seamless integration with complimentary security and site management solutions means Command Centre delivers on its promise. You’re in command. Command Centre v8 introduces new Site Plan functionality for greater situational awareness and responsiveness; Broadcast notifications to Mobile Connect for better communication in emergency situations; and Status and Overrides REST APIs for increased integration flexibility.
Climax’s Voice Recognition Emergency Voice Call Point with Wi-Fi capability, adopts advanced speech recognition technology that recognises preset vocal commands and triggers specified actions. When combined with a monitoring system, it will activate an emergency call to a professional monitoring centre, allowing users to receive emergency attention even in situations which they are unable to seek help physically. In addition to voice activation, the VRCP-WiFi features a large button for users to summon help during an emergency. In critical situations such as falls, medical problems, or emergencies, users can quickly activate the device to report an alarm. VRCP-WiFi can work with routers that support Wi-Fi network, providing network connection for making outgoing voice calls and receiving incoming calls for two-way voice communication. It has a powerful speaker and microphone built-in and can be easily mounted or placed anywhere in the premises. Having multiple VRCP-WiFi placed at strategic locations throughout the home can create an extra network of safety. When an emergency happens, users can simply use the nearest Voice Call Point to summon help. It is suitable for seniors and medical care and ideal for multi-story homes and larger premises. Knowing that senior users can quickly and easily speak with a CMS operator from anywhere in the home provides an extra layer of protection and peace of mind. The VRCP-WiFi also transmits supervisory and low battery signals to the medical alarm panels to ensure its proper operation at all times. Emergency Voice Extender with Wi-Fi capability Voice Recognition to activate emergency call by preset vocal commands Single-button design for making calls to summon help Provide high-clarity, hands-free, two-way communication through Wi-Fi networks Automatically picks up incoming call without button press Excellent voice quality allows users to answer within 10m range from VRCP-WiFi Built-in microphone and speaker Large ALARM button for easy identification Wall-mount or table-top placement Sleek, Modern Design Regular supervision signals to check system integrity Ideal for multi-story homes and larger premises
The new DSC1500 portable beam barricade sets up quickly and temporarily to block vehicles and secure locations during short-term events and anywhere a beam barricade is needed for interim security. With a clear opening of 16 feet (4.8 m), the DSC1500 is M30 certified, able to stop a 15,000 pound (66.7 kN) vehicle going 30 mph (48 kph). Many organisations have the need for easy to install, temporary drop-arm barriers that can install within 10 minutes to transitorily close down a roadway to one or two lanes or block parking lot exits to deter thefts. Previous beam barriers had to be filled with sand, gravel or cement to be operable. To remove the DSC1500 from its temporary site, it is simply repacked in ten (10) minutes. No excavation or sub-surface preparation is required. Once positioned, the mobile barricades unpack themselves using manual hydraulics to raise and lower the barriers off their wheels. A self-deploying trailer with integrated lifting device facilitates rapid installation. The process is simply reversed when the event is over or the time comes to deploy the beam barrier at another location. From a purchasing standpoint, it can be easier to buy portable beam barricades than permanent solutions. The latter are oftentimes placed into an organisation’s real assets budget because they are permanently installed into the ground, becoming part of the property. Such budgets can often create complex purchasing scenarios for law enforcement or public safety departments. However, purchasing portable beam barricades is no different than buying protective vests for personnel or new sets of wrenches for the maintenance department. For one time uses, a lease plan has been created where organisations can simply lease the portable barriers, use them, pack them up and return them. Delta always keeps an inventory for purchase and quick delivery at their manufacturing facility in Palmdale, Calif. That’s because, in many cases, they are needed for events that come up quickly, such as emergency road or bridge construction or unexpected parking lot requirements.
Thanks to WIT door entry monitor touch interface the user is able to take calls to the home, manage missed calls, view captured images, read messages sent by the administrator, visualise aerial camera images, activate external relays, get notifications about alarms on the monitor and guard unit, and even manage the home automation system. WIT's exclusive aesthetics are underpinned by an innovative technology that allows the installation of APPs (APPs have to be FERMAX certified and configured by authorised installers). For simplicity of installation, WIT monitors allow PoE power supply, this means that it makes use of PoE switch power and no dedicated power supply is required. WIT 10" monitor is specially designed for home automation integration, since it is the only monitor that incorporates 2 RJ-45 network interfaces to be able to connect to both the community IP network and the apartment's local network, maintaining both the isolation between networks and flexibility in connectivity. Its surface or embedded installation allows it to adapt to the most demanding architectural designs.
Vanderbilt’s ACTpro 1500 PoE Ultra controllers were launched in March 2019. What is it? The ACTpro 1500 is a single door IP Controller and includes a dual-port Ethernet switch. The controller supports 60,000 users and includes a rich set of advanced features, including voltage monitoring and break glass monitoring. These controllers are ideal for a single door system or systems that need to grow up to 4,000 doors. How does it work? The PoE Ultra hardware in the controllers ensures support for all power requirements. This includes local door accessories and components such as card readers, door locks and request to exit buttons. PoE Ultra ensures that all of this is accomplished without the need for additional Power Supply Units (PSUs). Essentially, this saves the system user time and money. Moreover, as this is all powered over the Ethernet, it translates to less cabling and more convenience for installers too. Why does it matter? This is an important feature for installers because when a system is fast to install and more straightforward to set-up and quote, it removes the complexity from access control and allows installers to get more done, more efficiently, and in less time. This ultimately benefits their business and their bottom line.
8 onboard zones 8 Areas, 2 partitions for each Area 3 programmable outputs, including 1 relay output, 2 MOS outputs Outputs operation follows system events, zone events, Area, Link events and timer schedule 100 users with 8 authority levels for users(Supervisor, Manager, Master, User, Temporary, Duress, Patrol and Technician) 1000 events log 8 independent timers for automatic control Up to 8 keypads (ARK30C) 1 case tamper and 1 leave-wall tamper supported Supports more than 11 zone types 7 sorts of zone terminations, including NO, NC, EOL, 2EOL, 3EOL, Interial type and Impulse type EOL resistance configurable (2K7, 4K7 or 6K8) Built-in 10/100M self-adaptive Ethernet interface 2 RS485 ports can be used to connect with keypads and other modules 3 telephone numbers for monitor station(PSTN), 8 numbers for vocal message, 8 numbers for SMS Combined with additional PSTN modules (ARA58-P) for dialling to the digital receiver in the CMS, transmitting CID protocol Combined with additional GPRS/GSM modules (ARA58-G-EN or ARA58-G-IT) to receive SMS notifications and remotely control, as well as receiving voice event messaging and remotely control by full voice menu guide Cellular backup in case of IP network failure with GPRS/GSM Modules App DMSS to push alarm message and remotely control Firmware upgrade with a PC using Alarm Config software
Dahua Technology, a leading solution provider in the global video surveillance industry, has launched a new apartment outdoor station VTO9341D, providing new access control solutions to fence and lobby entrance with the cutting-edge face recognition technology. The apartment outdoor station elevates the safety and convenience of resident security system to a new level with the fashionable non-touch face-recognition entry, while conventional unlocking ways are preserved in case of emergency. The product’s working temperature is between -20°C to 60°C, meaning it can operate smoothly across a variety of weather conditions and geographical areas. With a shell made of aluminium alloy plate, it meets IP55 standard for water and dust resistance, and IK07 standard for impact resistance. Further enhanced by the Intrusion Prevention System, the product will offer ideal ingress protection to property owners and facilitate the work of security guards. Face recognition Once a person steps into the 0.5-metre distance within VTO9341D that triggers its approaching induction, the 2MP CMOS image sensor will capture the face in high-definition colour image for identification. In as quick as 0.5 second, it can complete recognition and open the door for the residents. With strong capacity to store up to 20000 faces, the system would suffice the demand of large housing estates or commercial lots. The Auto Gain Control supplements white light to cope with poorly-lighted conditions, enabling night vision for the outdoor station. Multiple unlocking approaches VTO9341D is also equipped with Mifare Card reader, fingerprint recognition (with a memory of 3000 fingerprints), and touch screen key pad, which provide multiple unlocking approaches via card, fingerprint and password. Working together with VTS5240B Master Station that can forward image to mobile devices, owners can even enjoy the remote unlock function while away from home. Additionally, the audio system supports bidirectional talk, which assists visitors and owners in dual-way communication as an auxiliary to face identification. As a high-end product with unique features and full market potential, VTO9341D will benefit both Dahua dealers and system integrators. With DSS EXPRESS monitoring access control & other Dahua exclusive technologies, the apartment outdoor station would lower the time cost of integration and maintenance.
With Openow™, facility managers and security administrators have more control and no longer need to administer physical credentials. And it’s fast and easy to upgrade an existing SMARTair® system to work with Openow™ or to install mobile-ready, wireless SMARTair® access control from scratch. The new Openow™ app has been designed around convenience, security and user experience with virtual keys. Information transfer between administration software, smartphone app and the SMARTair® device is protected by end-to-end encryption. “Right from set-up — involving simple, secure email subscription — users find the Openow™ app a joy to operate. Tap a SMARTair® lock with your phone carrying a valid virtual key, and the door unlocks. The device you carry everywhere — the smartphone — now replaces a separate RFID card with MIFARE®, DESFire, iCLASS® and other proximity technologies.” explains Félix Morán SMARTair® Product Manager at ASSA ABLOY. Openow™ also adds further layers of security to every premises Facility managers find life a lot simpler when managing access rights with the Openow™ mobile solution. Change the validation time in the administration software to automatically update a user’s virtual key (when the phone has a signal). Cancel a virtual key and it vanishes immediately from a user’s app. Facility managers can check and amend the validity of each virtual key whenever they want, and wherever they are. The complete mobile solution includes the SMARTair® device range, with wireless escutcheons and cylinders plus wall readers; the intuitive SMARTair® TS1000 software; user credentials, e.g. cards and the new Openow™ app. Business owners and directors project the right image for their premises when they offer mobile credentials via Openow™. Phones replace plastic key-cards, so there’s no need for a card activation terminal on reception or elsewhere. Users also save time, because there’s no longer any need to collect or validate an access card: your key is already on your smartphone. Openow™ makes it easy to organise virtual keys inside the app, check how long they are valid, and protect them further with an individual PIN. If you have virtual keys from multiple sites or premises, Openow™ easily handles those, too. No more key-card, or wondering where you left it; no more appointments to pick one up or have it revalidated. With Openow™, if you have your phone, you are already carrying your keys. The SMARTair® Openow™ app is free to download now from Apple’s App Store and the Google Play Store. For more information, see www.tesa.es/discoverwireless Across the EMEA region ASSA ABLOY offers SMARTair® under several trusted security brands, including TESA, Mul-T-Lock, ASSA, JPM, KESO, RUKO and TRIOVING.
The new Aperio® H100 packs the power and flexibility of wireless access control into one slim, cleverly designed door handle. With easy retrofitting to almost any interior door and comprehensive RFID compatibility, the new Aperio® H100 handle makes extending access control to more doors cost-effective by integrating with a vast range of third-party systems. The Aperio® H100’s stylish design is perfect for indoor office and facility doors. The Aperio® H100 can work within an online access control system or offline as a standalone device. A battery fits inside the handle, ensuring a minimal footprint and a discreet look to gel with any contemporary door style. The Aperio® H100 is easy to retrofit on existing doors, with no drilling and no wiring required. Any existing mechanical cylinder can still be used. The Aperio® H100 is specified with maximum flexibility and designed to fit almost any format of interior door. The Aperio® H100 is compatible with most common European (DIN) and Scandinavian mortise locks, in wooden, steel, tubular frame or glass doors with standard lock cases. It comes in left- and right-hand versions for a door between 35mm and 80mm thickness, with optional U-handle and USB adaptor. The Aperio® H100 is compatible with multiple RFID technologies, including iCLASS®/ISO14443B, iCLASS® SE, Seos®, MIFARE® Classic, Plus and EV1, and DESFire® SE. “Like all Aperio® devices, our new handle can upgrade site security for a very affordable price,” says Matthias Weiß, Product Manager Aperio® at ASSA ABLOY EMEA. “The Aperio® H100 further extends a range which adds access control wirelessly to exterior and interior doors, from fire and safety doors with regulatory requirements to meeting rooms, labs and offices.” The new Aperio® H100 handle completes a comprehensive range of Aperio® wireless access control devices that already includes online and offline Aperio® cylinders (C100/C900) and escutcheons (E100/E900); an online and offline lock (L100/L900); and a wireless lock for bringing server racks and cabinets (KS100) into the same access control system as doors.
The H4 Video Intercom integrates a 3 MP camera with a high-performance intercom and features exceptional wide dynamic range, low-light, noise reduction and echo-cancelling technologies for clear viewing and two-way communication with visitors. Combined with Avigilon Control Center (ACC) video management software, this secured entry system enables operators to quickly and easily identify and communicate with a visitor before remotely granting access.
The PoE Ultra hardware in Vanderbilt’s ACT controllers ensures support for all power requirements. This includes local door accessories and components such as card readers, door locks and request to exit buttons. PoE Ultra ensures that all of this is accomplished without the need for additional Power Supply Units (PSUs). Essentially, this saves the system user time and money. Moreover, as this is all powered over the Ethernet, it translates to less cabling and more convenience for installers too. This is an important feature for installers because when a system is fast to install and more straightforward to set-up and quote, it removes the complexity from access control and allows installers to get more done, more efficiently, and in less time. This ultimately benefits their business and their bottom line. The new PoE Ultra feature, alongside the ACT access control software’s existing integration with Vanderbilt’s award-winning SPC intrusion system, a rules mapping engine, and a smartphone app, simply adds to this concept. Vanderbilt’s core aim has always been to put customers first. We believe PoE Ultra controller has a firm grip on this mantra, as it plays to pain points of both system users and installers. As we continue to develop and evolve new generations of security products, our focus will remain on striving to be a partner that is flexible to customer requirements and adaptable to meet the ever-changing needs of the market.
Mercury Security continues its commitment to open architecture access control with its intelligent controller platform that delivers extensive support for third-party applications, while offering advanced security and enhanced performance. Built on the Linux operating system, the new LP intelligent controllers offer the greatest flexibility for OEMs, channel partners and end customers to choose the controller configuration that best fits their needs. Key Highlights: Open Architecture: High performance, reliable platform enables use of hardware with Mercury OEM partners’ software solutions Device Integration: Supports a wide range of third-party integrations and applications Enhanced Security: Embedded crypto memory chip and data-at-rest encryption provides a secured layer of protection of sensitive data. OSDP Protocol: Secure channel security for reader connectivity and extended applications such as biometrics and high assurance credential authentication Versatile Interoperability: Same reliable interface and identical footprint as the EP controllers, enabling seamless upgrades for existing deployments For organisations seeking an open access control platform, the industry’s best reliability, cybersecurity, and an extensive device integration library, Mercury’s LP intelligent controllers are the clear choice.
Vanderbilt released the latest version of ACT Enterprise on 25 September at the 2018 Security Essen event. What is it? ACT Enterprise is the control software suite for ACTpro hardware and streamlines the installation, management, and monitoring of the ACTpro access control system. The latest ACT Enterprise features include integration with Vanderbilt’s award-winning SPC intrusion system, a rules mapping engine, and a smartphone app. Why does it matter? The ACT Enterprise Apple and Android compatible apps mean real-time monitoring, user management and administration from your smartphone. You can lock and unlock doors, authorise users and check who’s in and who’s out – wherever you are. The ability to integrate with SPC further highlights the depth that the new feature set brings to the product’s strength. Now on one screen you can have high-quality graphical maps showing all access and alarm points from both systems, and you can control all devices with the click of a button. How does it work? One of the key new features in this ACT Enterprise release is rules mapping. The rules mapping engine offers the customer an intuitive method to create rules based on access control events and Boolean logic. It does this by permitting the creation of logical relationships between system elements through a drag-and-drop interface. For the end user, this addition ensures that system interactions can be seamlessly introduced on a system-wide basis, thereby enabling a higher level of added value to be realized, both for security and business-based functionalities. The ACT Enterprise rules mapping engine ensures intuitive, easy-to-use I/O management for trigger detection with compatible devices. These devices are usually attached to a door or an automated electrical that closes the circuit on the I/O unit. When this circuit is closed, an alarm is sent over the network, and ACT Enterprise captures that.
Nedap’s new end-to-end security solution is the first to offer digital protection for access control by unifying best practices from both IT and physical security. Protecting access control systems Until now, the latest best practices protecting IT systems from digital threat haven’t been used for physical access control systems. This is an oversight that is leaving many companies vulnerable to cyber attacks. Nedap and AET Europe have worked together to overcome this by developing AEOS end-to-end security. Taking a forward-thinking new approach, they have combined the best practices of both IT and physical security in an all-in-one access control system. Albert Dercksen, Head of R&D at Nedap, explains why AEOS end-to-end security is needed: “IT and physical security have been following different rules to protect systems. But modern access control systems are, in fact, IT systems connected to corporate networks and should be treated as such. That’s why we’ve applied the digital security principles used in IT to AEOS, our physical access control system.” Communication secured from end-to-end In AEOS end-to-end security, Nedap and AET Europe have combined the IT principles of encryption and strong authentication. This ensures storage in every element of AEOS is secure, as is communication between all elements. Both DESFire keys and digital certificates are stored in a Secure Access Module (SAM) inside door controllers. This leaves card readers with no role in decrypting data, so secure communication between card and controller is guaranteed and, by storing digital certificates in the same SAM, strong authentication is achieved to ensure secure communication between controller and server. Protect critical infrastructure In this way, AEOS end-to-end security offers far higher protection against both physical and digital threats. It also enables keys to be updated securely and centrally, without having to physically attend each card reader. AEOS end-to-end security meets a stringent level of security requirements across Europe, and is already being used to protect critical infrastructures in several countries. In France, for example, it has gained CSPN certification from the French information security agency, ANSSI.
Delta Scientific DSC7500 swing beam barricade is designed to close off one or two lanes of a roadway and provide counter terrorist level protection against vehicle attack and has been tested in the United Kingdom to stop a 7,500 kg (16,500 pound) 2-axle European truck traveling 80 kph (50 mph), meeting the BSI standard PAS:68 2007, which tests barricades to a standard most similar to the U.S. State Department’s K12 rating. "The DSC7500 uses its latest in crash beam technology," relates Delta Scientific Senior Vice President David Dickinson. "This swing beam barrier has been tested and certified in both the United Kingdom and the United States to stop truck bomb attackers dead in their tracks right at the barricade. The DSC7500 is being used worldwide, primarily at locations where roadways need to be secured from attacking vehicles." The DSC7500 is supplied as an easy to use manual gate or powered with full automation features. Other versions of the DSC7500 Series include a full swing gate with anti-climb features that can replace existing non-rated swing gates. Delta's beam barricades are available in hydraulic and manually operated models. All models are crash rated with one version enhanced for applications at nuclear power plants. Their clear openings range is from 3.2 m to 9.0 m (10.5 to 29.5 feet).Add to Compare
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Public spaces in cities and suburbs are important places for community development and promoting outdoor recreation. These areas may include main streets, parks, promenades, band shells and fields. Such locations are often utilised by public event planners for community activities, including summer festivals, wintertime ice skating rink installations, music concerts and art fairs. As the year drew to a close, holiday and Christmas markets as well as major New Year’s Eve events, presented cities with constant public event security needs. The public nature of these events increases risks of incidents with high-speed vehicles that put attendees in danger. Fortunately, there are three ways for public space managers to prevent casualty-causing collisions and further promote the use of local public areas. Developing an effective action plan When strategising how to react to an alert, think about what time of the year and time of day the event is occurring It is important to have a plan developed before an incident or accident occurs. Warning systems, utilising doppler radar and digital loop technologies, alert guards to abnormal vehicle velocity changes in the surrounding area. Managers of public areas should organise a meeting with public safety authorities and local agencies to discuss what must immediately occur when a high-speed vehicle is approaching a public event. When strategising how to react to an alert, think about what time of the year and time of day the event is occurring. Having such a reaction plan in place combines technology and strategic planning to ensure everyone is on the same page to effectively target a threat and promote overall event safety. Securing public areas Ideally, there will be no need to implement a well-conceived action plan. After all, taking preventive measures to secure public areas where events take place is important to keep people safe from accidental vehicle collisions and intentional attacks. Protect attendees by clearly separating pedestrian and vehicle locations using security devices such as – Barricades Portable barriers Bollards Install guard booths Avoid the risk of vandalism and theft, making sure people are safe when walking back to the cars at night by keeping parking areas illuminated with flood lights. Install guard booths with employees who monitor activity in the parking area and who are prepared to react if an alert is triggered. Furthermore, prevent accidental collisions by clearly marking the parking area with informative warning signs and using barricades to direct traffic. These three tips can be used by public area managers to promote security at the next community event. Additionally, the technologies used to secure an event can also be used as infrastructure for year-round security. Installing gates that shut when the public space is closed or using aesthetically pleasing bollards are steps any public area manager can take to promote community safety.
As anyone who has ever flown on a commercial airline since 2001 knows, security measures at airports are well enforced and the emphasis on traveller safety is all around the airport and its grounds. Mass transportation, meanwhile, presents a special but not any less significant challenge when it comes to determining security issues. These facilities need to develop the means to protect a constantly changing and large population of passengers. And unlike airports these facilities often have hundreds of points of entry and exit on multiple modes—buses, subways, light rail, commuter trains, even ferries. About 2 million Americans will use the nation’s airways on a given work day, while 35 million people will board some form of public transportation. In fact, statistics have shown that nearly 11 billion trips are taken on public transportation every year. In some large metropolitan areas in North America where mass transit is well established, more than 20 percent of the area’s inhabitants get around via public transportation.About 2 million Americans will use the nation’s airways on a given work day, while 35 million people will board some form of public transportation Solving mass transit security For transportation officials and their security providers, solving the mass transit security issue begins with determining the key concerns and then creating the proper responses via security systems, policies and procedures to mitigate the risks. Although vandalism and graffiti are very visible signs of criminal behaviour in mass transit settings such as bus stops and subway stations, this is not where transportation officials typically focus their energy. Fences and gates can secure out-of-service buses and train cars, as can remote surveillance methods to keep such vandalism at a minimum. Instead, it is the day-to-day safety and security of transit riders and employees that should become the highest priority. This begins with creating the safest environment possible that is highlighted with appropriate signage and, when necessary, audible warnings, and supporting that with technology, such as surveillance cameras, that will document what has happened if an incident occurs.Analytics can also be useful in alerting security about other suspicious behaviours at a transit stop, such as an untended bag or package Crime prevention in transportation Analytics can also be useful in alerting security about other suspicious behaviours at a transit stop, such as an untended bag or package Incidents of concern within a transit setting can take several forms, ranging from legitimate accidents or crimes to false claims such as faked fall down the stairs to potential and actual suicides. Bus and subway stations also have become magnets for homeless people who may put themselves and others in harm’s way by trying to access less secure public areas within a station as temporary shelters. If someone is injured on a subway platform and the transit provider is held liable, it could be on the hook for hundreds of thousands, if not millions of dollars. Suicides are a major concern for operators, with personnel now being trained to look for individuals who seem distressed, are loitering in the area or are intentionally putting themselves in a dangerous situation, such as standing too close to the edge of a platform. The deployment of video analytics, which can be programmed to send alerts when certain pre-set actions occur, can help determine when such dangerous behaviours come into play. Analytics can also be useful in alerting security about other suspicious behaviours at a transit stop, such as an untended bag or package or a person going into a restricted area. Whether it is on the bus, train or ferry or at the stops themselves, cameras and intuitive video management systems are the key to both active and forensic transit security. Some cities use buses that are up to 60 feet long and those can be equipped with up to a dozen cameras Train security and safety By using the proper cameras and recording systems in a transit environment, quick-acting personnel can locate a person of interest who boarded a train at one station, follow him during his trip and produce a crisp, clear identifiable image at the end. Those setting up the system thus should keep in mind proper camera positioning, resolution and motion-based changes to framerates or other compression settings. A typical 30-foot bus often has six cameras—one each at the front and middle doors, two more within the bus and then one looking forward and another looking behind the bus. The latter two are important in the event of accidents to verify liability. Some cities use buses that are up to 60 feet long and those can be equipped with up to a dozen cameras.Train stations often deploy high-definition cameras to better support facial recognition software to get that actionable image Train cars are similarly equipped with two to four cameras to view activity down the centre aisle. Within the stations themselves, there can be from 15 to 30 or more cameras capturing wide-angle shots. Train stations, which have a restricted point of egress, often deploy high-definition cameras to better support facial recognition software to get that actionable image. Installing the right technology for the solution Although bandwidth and storage can be a concern, with motion-based recording, the resolution can be bumped up during event, resulting in a 1-megapixel stream jumping to 4 or even 8mbps when needed. By changing the resolution on demand, end users can cut their storage needs significantly. Transportation settings often rely on the same technology used in other security installations, primarily mini dome cameras, although there are some mini transit domes built specifically for the environment with the proper aesthetics. Because of vandalism threats, transit typically avoids pendant mounts, which can be more easily grabbed and damaged. Temperature ratings for cameras also come into play in cold climates with cameras often getting outdoor exposure.Today’s new buses and trains are constructed with the cameras onboard and newer stations also take security into consideration at the earliest design stage As trains and buses move along their routes, especially those that service outlying areas, Internet connectivity becomes an issue as well. Because it may be difficult for video to be sent in transit, security bus barns are equipped with Wi-Fi so video from onboard cameras can be downloaded at the end of the day. And the use of hardened recorders at the stations allows security personnel to retrieve recorded video. Transit security with modern technology Today’s new buses and trains are constructed with the cameras onboard and newer stations also take security into consideration at the earliest design stage. Older infrastructure from long-standing subway and bus terminals can prove to be a challenge when adding security, but these issues aren’t insurmountable. Often the solution is to add more cameras to cover the same square footage because of less-than-ideal sight lines and to place conduit wherever it works best, which may mean positioning it under platforms or in other out-of-the-way places within older stations. Looking ahead, transit security will continue to evolve, not only as new stations and modes of transportation are added to the system, but in terms of communicating with commuters. People can expect to get mass notification alerts on their mobile devices, and those same devices can provide vital data to transportation entities to better develop their overall systems.
With the ever-growing availability of video data thanks to the low cost of high-resolution video cameras and storage, artificial intelligence (AI) and deep learning analytics now have become a necessity for the physical security industry, including access control and intrusion detection. Minimising human error and false positives are the key motivations for applying AI technologies in the security industry. What is artificial intelligence? Artificial intelligence is the ability of machines to learn from experience using a multi-layer neural network, which mimics the human brain, in order to recognise items and patterns and make decisions without human interference. The human brain is estimated to have 86 billion neurons; in comparison, the newest Nvidia GPU Volta has 21 billion transistors (the equivalence of a neuron), which offers the performance of hundreds of CPUs for deep learning.AI can learn continuously 24 hours per day every day, constantly acquiring, retaining and improving its knowledge In addition, unlike humans, AI can learn continuously 24 hours per day every day, constantly acquiring, retaining and improving its knowledge. With such enormous processing power, machines using Nvidia GPU and similar chips can now distinguish faces, animals, vehicles, languages, parts of speech, etc. Depending on the required complexity, level of details, acceptable error margin, and learning data quality, AI can learn new objects within as fast as a few seconds using Spiking Neural Network (SNN) to a few weeks using Convolution Neural Network (CNN). While both SNN and CNN offer advantages and drawbacks, they outperform tradition security systems without AI in terms of efficiency and accuracy. According to the research reports of MarketsandMarkets, the market size of perimeter intrusion detection systems is projected to increase from 4.12 billion USD in 2016 to 5.82 billion USD in 2021 at a Compound Annual Growth Rate (CAGR) of 7.1%. Meanwhile, the predicted market of AI in security (both cyber security and physical security) will grow from 3.92 billion USD in 2017 to 34.81 billion USD by 2025, i.e., with an impressive CAGR of 31.38%. Legacy perimeter intrusion detection systems Legacy perimeter intrusion detection systems (PIDSs) are typically set up with the following considerations: Geographical conditions: landscape, flora, fauna, climate (sunrise, sunset, weather conditions, etc.), whether there are undulations in the terrain that would block the field of view of cameras Presence or lack of other layers of physical protection or barriers Integration with other systems in the security network: camera, storage, other defensive lines (door, lock, alarm, etc.) Types of alarm triggers and responses System complexity: intrusion detection with various types of sensors, e.g., microwave sensors, radar sensors, vibration sensors, acoustic sensors, etc. Length of deployment Local regulations: privacy protection, whether the cameras/sensors must be visible/hidden/buried, etc., electromagnetic interferences that may affect other systems such as oil rigs or power plants Human involvement: on-site personnel arrangement, human monitoring, human action in response to alarms AI object detection can easily distinguish different types of people and objects Pain points and benefits of AI The conditions listed above correspond to certain requirements of an intrusion detection systems: minimal false alarm, easy setup and maintenance, easy integration, and stable performance.AI by nature is designed to learn, adapt itself and evolve to work in multiple conditions: it should be integrated with existing video recording systems Minimal false alarms: False alarms lead to increased cost and inefficiency but are the main problem of PIDSs without AI technology, where animals, trees, shadows, and weather conditions may trigger the sensors. AI object detection can easily distinguish different types of people and objects, e.g., in a region set up to detect people, a car driving by, a cat walking by, or a person’s shadow will not trigger the alarm. Therefore, the amount of false alarms can be reduced by 70% to orders of magnitude. Easy setup and maintenance: Legacy PIDSs without AI must account for terrain, line of sight of cameras, sensor locations; any changes to the system would require manual effort to recalculate such factors and may disturb other components in the system. In contrast, AI PIDSs enable the system administrator to access the entire system or individual cameras from the control room, configure the region and object of interest in the field of view of cameras within minutes, and adjust with ease as often as necessary. Computing knowledge and even specific security training are not required to set up a secured PIDS with AI because AI PIDS is designed to relieve humans from knowing the inner working of machines. Easy integration with complementary technologies: Legacy PIDS without AI relies on physical technology, which are often proprietary and require complete overhaul of systems to function smoothly. On the other hand, AI by nature is designed to learn, adapt itself and evolve to work in multiple conditions, so AI PIDS is easily integrated with existing video recording (camera) and storage (NVR) systems. AI also eliminates the need for physical wireless or fiber-based sensors; instead, it functions based on the videos captured by cameras. Furthermore, AI enables easy and instantaneous combinations of multiple layers of defense, e.g., automatic triggering of door lock, camera movement focusing and access control as soon as a specified object is detected in the region of interest, all set up with a click of a button. Stable performance and durability: Legacy PIDSs without AI requires complicated setup with multiple components in order to increase detection accuracy. More components mean a higher probability of malfunction in the system, including exposure to damages (e.g., sensors can be destroyed) and delay in detection, while human monitoring is inconsistent due to human fatigue (studies have shown that a person can concentrate in mundane tasks for only up to 20 minutes, and the attention span decreases even more rapidly when humans are faced with multiple items at once, e.g., multiple camera monitoring screens). AI significantly reduces, if not completely eliminates the need for human involvement in the intrusion detection system once it is set up. In addition, AI reduces the risk of system malfunction by simplifying the hardware sensors needed. Minimising human error and false positives are the key motivations for applying AI technologies in the security industry Additional benefits of AI in intrusion detection Artificial Intelligence is undeniably reshaping every business and weaving into every aspect of daily lifeMaximal detection capability: The most advanced AI intrusion detection system today provides an all-in-one solution to distinguish any combination of alarm-triggering criteria beyond perimeter protection. Using AI, the system administrator can configure as many zones with different settings and object of interests as necessary, which include detections for specific colors or attributes (e.g., person not wearing the required uniform or carrying food/drink), numbers and dwell time (e.g., group of more than 5 people loitering), or movements (e.g., cars moving faster than the speed limit). In addition, AI can accurately pinpoint the location of event occurrence by displaying the camera that records the event in near real time, i.e., with few-second delays. Lower security operation cost: By minimising the number of false positives and human involvement while maximising ease of use and stability, AI intrusion detection systems significantly decrease the total cost of ownership. Companies can reduce the large security personnel overhead and cost of complicated and expensive legacy PIDSs systems. McKinsey Global report in June 2017 shows that proactive AI adopters can realize up to 15% increase in profit margin across various industries. Artificial Intelligence is undeniably reshaping every business and weaving into every aspect of daily life. In security, legacy systems are giving way to AI-based systems, and the first enterprises to adopt AI-based systems will soon, if not immediately, benefit from such investment. By Paul Sun, CEO of IronYun, and Mai Truong, Marketing Manager of IronYun
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