Intruder Detectors & Detection Systems(1,230)
X1 is a new Alexa built-in voice-controlled smart home alarm system, incorporating home security, home automation, and emergency monitoring all-in-one. Users can talk to X1 directly and control the smart home system with the voice commands. Turn off the lights, arm the system, or apply a scene when there’s a need—all hands-free and without hassle. What’s more, with Climax’s Alexa built-in voice extenders (VRCP-WIFI-AVS) placed around the house, users can easily control the system with their voices via the nearest device to them, no matter they are in the living room or the kitchen. The two-way voice communication on X1 and voice extenders also offers peace of mind during emergency events. Having a safer and comfortable living environment is more easily and intuitively now. Alexa Built-in With Alexa built-in, users can talk to X1 directly and control the smart home system with the voice commands, realizing home security, home automation, and emergency monitoring without hassle. Two-way Voice X1 features two-way voice communication with echo cancellation, allowing for real-time conversation with anyone at home. Alexa Built-in Voice Extenders In a house equipped with Climax’s Alexa built-in Voice Extender (VRCP-WIFI-AVS), users can easily control the system with their voices via the nearest device to them. The two-way voice function on voice extenders also provides great assistance during emergency reporting. Smart Home Security X1 is compatible with Climax’s F1 technology. With its fast transmission and reliability, the alarm reports will be sent timely to build a safer home environment. Home Automation With integration of Z-Wave automation sensors, X1 enables users to remotely control lights or home appliances according to customized schedules, scenes, or rules. X1 is tailored to all users’ needs and enhances their quality of life. Emergency Monitoring X1 can also assimilate round the-clock sensors, like smoke & heat detectors, water sensors to prevent disasters and quick response during emergencies.
HSGW is an IP-based multi-functional RF, ZigBee, and Z-Wave smart home security gateway with optional add-on of Wi-Fi or 3G/LTE capabilities, providing comprehensive solutions, including remote management, home security, live visual monitoring, home automation, energy management and emergency monitoring, designed to bring all-around convenience, comfort and safety. Multiple Communication Paths 3G/LTE, IP (Ethernet), or WiFi Communication Paths Supports RF, ZigBee, or Z-Wave devices Optional expansion via USB dongle Remote Management 160 zones Smartphone App (iOS & Android) and Web browser Smart Home Services Climax’s HSGW Series provides comprehensive smart home services, including remote control, home security, live visual monitoring, home automation, energy management and emergency monitoring. World-Leading 2-Km RF Range The HSGW adopts Climax’s groundbreaking Security@2km Wireless Technology that delivers RF communication range of 2 kilometers (1.5 miles), fast signal transmission, and relentless reliability. Live Visual Monitoring The HSGW can be compatible with up to 6 IP cameras, and PIR cameras/PIR video cameras for visual verification and real-time monitoring. PIR Motion Cameras/IP Cameras captures images and record video clips when unauthorized motions are detected and sent to users and monitoring centers for immediate action. Alarm Reporting The IP-based HSGW can send alarm reporting in multiple formats, including alarm events in CID/SIA, SMS, Email, Push reporting via 3G/IP, and send videos and images over Email via IP. Built-in Siren The HSGW features a loud built-in siren to blare out immediate warning when emergencies occur. It can also incorporate additional indoor and outdoor sirens to establish a powerful early warning system. Backup Battery The HSGW have rechargeable battery backup, which means that the gateways will keep working even when the power is out, or if it was purposefully sabotaged. When it comes to your security system, there is no room for error. Home Automation The HSGW incorporates ZigBee and/or Z-Wave accessories to automate your home and enhance your life quality. You can easily tailor the HSGW’s services to meet your family’s needs anytime, anywhere via smartphone app and web browser. Energy Management The HSGW can integrate whole-house energy meters to report how much electricity the entire household uses and ZigBee/Z-Wave power meter switches to monitor the power consumption of individual home appliances. With this power-saving system you can develop a useful strategy to reduce energy consumption. 24-Hour Emergency Monitoring The HSGW can incorporate smoke/heat detectors, water sensors, air quality sensors, panic buttons, light and humidity sensors to protect user’s family and property from damage cause by fire, heat, water, or air toxins. This round the clock monitoring ensures comprehensive prevention of disasters and quick response during emergencies. Remote and Mobile Control: Vesta Home App The end user can download the Vesta Home App from the App Store or the Google Play Store to manage the HSGW, receive event reports and view alarm videos/images on a smartphone. Specifications Communication Path: IP (Ethernet) and/or WiFi Built-in Module: RF / Zigbee / Z-Wave Optional Expansion Via USB Dongle: WiFi, Z-Wave or 3G/LTE (requires 6B battery pack) Wireless Zones: 160 zones Reporting Method: CID/SIA, Email, SMS, Push Notification Programming Method: Web and App Zigbee Protocol: Zigbee Pro HA 1.2, 2.4GHz Z-Wave Protocol: Z-Wave Plus 500 Series, 868.40MHz (EU) / 908.40MHz (US) RF Frequencies: 433MHz / 868MHz 3G Frequencies: 900 / 1800 / 2100MHz LTE Frequencies: 800 / 900 / 1800 / 2100 / 2600MHz WiFi Module: 802.11 b/g/n Power Supply: (4B) 9V, 1A or (6B) 12V, 1A Backup Battery: (4B) 4.8V, 1100mAh, Ni-mH rechargeable battery pack; or (6B) 7.2V, 1100mAh, Ni-mH rechargeable battery pack (for 3G/LTE option); or (6B) 7.2V, 2300mAh Ni-mH rechargeable battery pack (for 3G/LTE option) Backup Battery Life: (4B) 6.5hrs* or (6B) 13hrs*, or (6B) 24hrs* Operating Temperature: -10°C to 45°C (14°F to 113°F) Operating Humidity: Up to 85% non-condensing Dimensions: 150mm x 140mm x 42mm
System Overview Adopt 24 GHZ radar chip for 24/7 all-weather high-accuracy detection in the range of 120 m/120°. Support radar-PTZ smart tracking, compatible with common Dahua speed domes. With radar detection and intelligent algorithms, ultra-low false positives and zero false negatives are achieved around the clock. Multiple PTZ cameras can be linked to one radar, and wide range global arming and detail tracking is realized simultaneously. The product is widely applied to various perimeter and intrusion arming sites such as villas, warehouses, prisons, airports, and oilfields to provide users with safer and more valuable security protection solutions. Functions K-band DetectionAdopt 24 GHz radar chip for detection with long distance, high accuracy, wide range, and 24/7 all weathers to realize ultra-low false positives and zero false negatives in armed regions. Radar+PTZ Smart TrackingSupport linkage between radar and common Dahua speed domes. Multiple speed domes can be linked with one radar (link up to 3 speed domes on web manager, and up to 8 on platform). Both radar and cameras can be installed separately. Multi Level Perimeter ProtectionSupport region setting with different alarm priority, external alarm linkage, human and vehicle filtering, and vehicle detection with low and medium speed. Front-end PTZ ControlLow delay with radar directly controlling camera tracking. Display radar-PTZ linkage on web manager, and one radar can link with multiple cameras. Video stream acquisition, and map and trajectory display on NVR or platform is also supported. Intelligent Algorithm of RadarIntelligent algorithm is used to identify complex scenes and achieve high accuracy in different scenarios. Alarm is triggered once radar detection range is covered or radar is rotated substantially. Support human and vehicle recognition. Centralized Platform ManagementSupport radar configurations and management of multiple radars on platforms. Display radar-PTZ smart tracking on the map. Ingress Protection and CertificationsMeet IP67 and IK09 ingress protection, and FCC ID and CE RED standards.Add to Compare
Ajax StarterKit Plus is designed for protection of homes, apartments, offices or commercial premises against intrusion. The kit consists of the Hub Plus intelligent control panel, MotionProtect motion detector, DoorProtect opening detector and SpaceControl key fob with panic button. Foundation for maximum protectionStarterKit Plus is the starting point for constructing a comprehensive security system for protection against intrusion. It can be connected to up to 150 various detectors and 50 cameras. The kit is scaled to rooms of any size due to additional devices: two-level apartment, three-storey mansion, office, shop or cafeteria, storage room. Easy installationStarterKit Plus is installed in 30 minutes. This requires minimum number of tools and efforts. All devices are ready to operate straight out the box: they come with default settings and pre-installed batteries. Interactive installation wizard in the mobile application will help you connect detectors and test detection zones. If you need expert installation, you can always contact the installers. Flexible access set upThe StarterKit Plus can be controlled using key fobs and a free mobile application. Up to 99 persons can arm and disarm the system, invite friends to monitor the room, receive notifications and respond to alarms. The system administrator controls the access and may limit rights of each user.
In control of security, not your private life Hub 2 manages all the Ajax devices in the system to alert users about open doors, broken windows, threats of fire and flooding. If burglars break into your house, Hub 2 transmits pictures from the MotionCam detectors and notifies the alarm response company about the danger. You won’t need to live under the constant supervision of the security cameras to know what’s going on. Baffles thieves Prevents fire Detects flooding Doesn't peek Stress-free The motion detectors react to dangerous situations as well as simple oversights. A nanny may bring the children home from the school and forget to disable the security system, which will raise an alarm. With Hub 2, you won’t have to worry in those cases and waste money on the false alarm fines. Open an alarm notification sent by the MotionCam detector to see what happened. Send a photo-series when triggered Deliver packages without Wi-Fi and cables Always in touch Hub 2 uses Ethernet or one of the 2 SIM cards to guarantee the delivery of the alarms and photos from the secured objects. The channels work in parallel and back each other up in case of emergency. Compression and transmission protocols guarantee lightning — fast delivery of the photo series even with weak Internet connectivity. Unlike with the video camera streams, with Ajax, you can evaluate the situation on the secured objects at the 0.5 kB/s Internet speed. Uses 3 independent communication channels Delivers alarms in 0.15 seconds Transmits photo confirmations even on 2G Trouble resistant With Hub 2, you’ll know immediately if the detector has a malfunction, if someone removed it, if it is damaged, or if its body is open. Even if the lights suddenly go out, the control panel will continue its watch powered by a back-up battery. Checks the functionality of detectors at least every 12 seconds Alerts about threats, channel interference, or malfunctions Operates for up to 16 hours during a blackout Evolves with every software update Hub 2 runs on OS Malevich, a real-time operating system. This type of software is used in the systems that can’t afford mistakes — for instance, spaceships and ballistic rocket launchers, or car brakes. OS Malevich is immune to viruses and protected from cyber attacks. Its architecture allows us to regularly expand the Ajax possibilities over the air within seconds and without bothering the users. Protected from cyber-attacks New features with every update Automatically updates over the air
ReX expands the boundaries of the protected area. The range extender controls the system devices connected to it enabling the user to place them at a considerable distance from the hub — in a high-rise office, in a detached garage or in a large production plant — while maintaining a stable connection. ReX acts as a reliable link between the hub and Ajax devices. Depending on the requirements, all detectors or only some of them can operate via the intelligent range extender. While regular range extenders represent the weakest link in the security systems increasing the risk of losing the alarm signal during transmission, ReX takes the reliability and resilience of Ajax to a new level. After the hub, ReX is the second decision-making center. It integrates detectors into an autonomous group within the system. If the connection with the hub is interrupted for some reason, ReX will assume control: it will receive an alarm signal from the detector and activate the siren to attract attention to the incident and scare off the burglar.
Exhibiting at Security Essen, Hall 5, Booth B48. Version 8.0 of long-range award-winning LiDAR – the REDSCAN RLS-3060 series and its configuration software REDSCAN Manager are both available. The new firmware enables additional detection modes including loitering detection, day/night pattern to the 30m radius RLS-3060L, while it allows the high end model to extend its detection area to 50m radius. The RLS-3060L will offer more flexibility in managing dry contacts with the option to switch from normally open (N.O.) to normally closed (N.C.). The RLS-3060L model ver. 8.0 features more detection zones and detection modes as well as greater flexibility with settings. The standard 2D LiDAR provides 30m radius detection range with 4 detection zones when used in analogue configuration and 8 zones in IP configuration. Loitering and selectable pattern modes are now available. Alarm duration and detection time settings are also more adjustable.Add to Compare
Version 8.0 of long-range award-winning LiDAR – the REDSCAN RLS-3060 series and its configuration software REDSCAN Manager are both now available. The laser sensor with the new firmware version, together with the new configuration software provide a number of new features for both the standard model, RLS-3060L, and the high-end model, RLS-3060SH. The RLS-3060SH will offer more flexibility in managing dry contacts with the option to switch from normally open (N.O.) to normally closed (N.C.). The RLS-3060-SH provides additional detection modes to the L model, such as indoor ceiling protection and vehicle detection mode, and has one major new feature – an extended detection area between 30 and 50m. When used in horizontal detection it creates a pre-warning zone from 30 to 50m radius that is able to detect larger objects such as vehicles. In vertical mode when mounted at 3m off the ground, it can detect a standing or squatting person over 100m making it ideal to pick up intruders, a long wall or fence.Add to Compare
Exhibiting at Security Essen, Hall 6, Booth 6D90. Wireless technology is coming of age, with two-way communication capabilities now cementing wireless’ reliability. Vanderbilt’s SPC Wireless range includes detectors, panic buttons, fobs, and a transceiver, and has a number of benefits intended to make installers’ day-to-day work life easier. The SPC wireless range can extend to 500 meters, proving a more cost effective alternative than having to wire an entire building with cable. This range of 500 meters also cuts down on install time, ultimately cutting down on an installer’s expenses. SPC Wireless devices use the industry-leading Energizer® lithium batteries, meaning an extended battery life of five years. This means installers don’t have to go to site as often to keep changing out batteries, freeing up time for more urgent tasks. Settings for the SPC Wireless range are all configurable over the air. Again, this reduces the need for time-consuming site visits. Most other products require the physical need to flick dipswitches to change commands but Vanderbilt’s SPC Wireless is aimed at convenience first. All-in-all, installs for SPC Wireless are designed to be hassle-free. You just put up the control panel, wire the mains to it, place the wireless detector in position, and you’re good to go. In contrast, a wired solution can take, at a minimum, a day’s work fitting cable. By reducing time on site, Vanderbilt’s SPC Wireless can enable installers to get more work done elsewhere, essentially meaning more profits from more jobs.Add to Compare
The Professional Series TriTech Curtain Detectors are exceptionally suited for commercial indoor applications. Sensor data fusion technology ensures that the detector sends alarm conditions based on precise information. The powerful combination of unique features in the Professional Series delivers superior catch performance and virtually eliminates false alarms. The self-locking two-piece enclosure, built-in bubble level, flexible mounting height, and three optional mounting brackets simplify installation and reduce service time.Add to Compare
PIR Detectors, Dual Technology Detectors, 10 m coverage, 85 degree o detection angle, Microwave, Pet Tolerance, Dual Element Sensor, 24 mA ~ 30 mA, Temperature Compensation, Sealed Optics, Wall, Ceiling, 2.4 m, White Light Filter, Wall, Ceiling, 9-16 V DC, 13.8 V DC, 117 x 69 x 50, -10 ~ +40 C (14 ~ 104 F)Add to Compare
OPTEX Europe has completed its Smart Line range of wireless Quad active beams by adding nine hardwired models to cover 60, 100 and 200m detection areas. Installers have the choice between three core models: The basic SL-QN ideal for straightforward applications featuring:• Quad Beam • Magnifying lens for optical alignment The standard SL-QDP featuring additionally:• Four selectable channel frequency • Dual modulation • LED and sound alignment indicators (receiver only) And the high spec SL-QDM providing additionally:• LED and sound alignment indicators (transmitter and receiver)• Dynamic data communication between receiver and transmitter for optimal alignment and performance. By developing this new Smart Line range OPTEX wanted to offer not only the best active infrared technology, but also to solve what it considers the most critical issue in implementing active infrared technology; the alignment between the beams. If the infrared transmitter and receiver are not communicating correctly with each other, false alarms can be triggered or genuine alarms can be missed. A number of clever tools, and features have been specifically developed to make the alignment as easy and as successful as possible: the vivid colour of the beam, the sniper view finder, the sound and LED signal gauge and the dynamic two way communication between transmitter and receiver. All these features help decrease drastically the installation time, especially for applications where the beams are 100 and 200m apart: The new Smart Line hardwired beams have been very well received by the market with the SL-QDP and SL-QDM models especially popular. For more information, visit: http://www.optex-europe.com/smart-line-beams.Add to Compare
PIR Detectors, Dual Technology Detectors, Glassbreak Detectors, 15 ~ 18 m coverage, 85 o detection angle, Microwave, Dual Element Sensor, 24 ~ 30 mA, Temperature Compensation, Sealed Optics, Anti-Masking, Wall, Ceiling, Yes, White Light Filter, Selectable Pulse Count, Wall, Ceiling, 9 ~ 16 V DC, 117 x 69 x 50, -10 ~ +40 C (14 ~ 104 F)Add to Compare
Dual Technology Detectors, Infra Red Beams, 10 m coverage, 90 o detection angle, Microwave, Dual Element Sensor, 24mA, Temperature Compensation, Sealed Optics, Anti-Masking, Wall, Wall, 9 ~ 16 V DC, 188 x 84 x 77, -30 ~ +70 C (-22 ~ +158 F)Add to Compare
PIR Detectors, Quad Technology Detectors, 12 m coverage, Dual Element Sensor, 50mA, Quad Element Sensor, Temperature Compensation, Sealed Optics, Ceiling, 2.4 ~ 4 m, Independant Floating Thresholds (IFT), Ceiling, 9 ~ 16 V DC, 80 x 80 x 29, -10 ~ +50 C (14 ~ 50 F)Add to Compare
Dual Technology Detectors, 15 x 30 m coverage, 20 o detection angle, Dual Element Sensor, 13 ~ 16mA, Temperature Compensation, Sealed Optics, Wall, Ceiling, 4 m, White Light Filter, Wall, Ceiling, 9 ~ 16 V DC, 117 x 69 x 50, -10 ~ +40 C (14 ~ 104 F)Add to Compare
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A total of £1.6 billion worth of goods are reported as ‘lost’ to in-store theft in supermarkets each year, with figures increasing steadily. The presence of self-checkout systems have increased in supermarkets, as well as other industry retailers. By 2021, we’re globally on track to have 468,000 self-checkout machines in operation, nearly double the 240,000 in existence since 2016. While this increase comes with such benefits as reduced wait times for customers and staff costs, it also comes with a risk of retail theft at self-checkouts. With the circumstances the world now finds itself in i.e. mass unemployment, financial uncertainty, the retail industry has seen an influx in these types of petty crimes, hitting retailers during an already turbulent period. While retailers are taking precautions to protect themselves and their patrons in this new era of in-person shopping, it’s important to ensure the business itself is protected. A popular method to combat these fears is to employ on-site security personnel, however, as we continue to adapt to new operating guidelines, retailers must begin thinking past the immediate future, and begin implementing long-term security solutions to prepare for life after lockdown such as strong CCTV systems with remote access. How has the security industry adapted its services to a post-lockdown world? Technological innovations like thermal recognition are key to adapting security systems for a post-lockdown world. Businesses which previously relied on facial recognition now must update their methods to account for shoppers wearing masks on-site and in-store. By 2021, we’re globally on track to have 468,000 self-checkout machines in operation, nearly double the 240,000 in existence since 2016 Biometric systems are now able to identify people with face masks, and thermal recognition such ADT’s Thermi-Scan system which can track human body temperature without the need for contact. Implementing these safe protocol procedures protect both employees and customers against virus outbreaks such as COVID-19. The need for these advances in video surveillance will reportedly increase the biometric facial recognition market by 14 per cent by 2027. Artificial intelligence has been hailed recently as the way forward for remote security needs, and whilst business-owners continue to navigate procedures of returning to work post-lockdown, having remote access to real-time security monitoring is essential now more than ever. What are the main measures stores can take to prevent or reduce theft? Strategically placing a multi-camera surveillance system to ensure clarity, eliminate blind spots, and deter thieves should be top priority. It’s equally essential to invest in a system which has an efficient playback programme, particularly in situations where reviewing important footage efficiently can offer vital information to the police force. Advances in video surveillance will reportedly increase the biometric facial recognition market by 14 per cent by 2027 As business-owners continue operating at reduced hours and with limited on-site staff, being able to access camera footage quickly and remotely is a key factor to consider. Whether owners opt to receive an alert on a mobile device allowing them to review notifications, or if their system is monitored by a remote security centre, it’s important to be able to access footage quickly for added efficiency and ease. Facial recognition and AI have been popular points of discussion in relation to security cameras and CCTV. While careful considerations must be taken prior to utilising any sort of facial recognition technology, including conducting a Privacy Impact Assessment, the benefits include being provided with real-time tracking of repeat offenders which immensely helps the prevention of in-store theft. Here are some key points to consider when choosing in-store surveillance: Assess your needs – To get the best out of your security system, it is essential to analyse what your requirements are for your business as they might have changed to adapt to a post-lockdown world Camera setup – With store layouts shifting to accommodate social distancing guidelines, it’s important to re-evaluate the current set-up of any security cameras. Depending on any layout updates, it might be important to consider operating multiple cameras in one area to ensure a peripheral view and eliminate any blind spots Camera positioning – For optimal performance, check that light sources are not obstructing your view such as glare from the sun. It is also worth considering the height at which cameras are installed to maximise surveillance Check the focus – It is worth testing camera lenses bi-monthly to ensure that lighting or weather hasn’t affected the focus of the lens, resulting in a blurry visual Remote access – As guidelines continue to evolve, ensure you’re able to access any necessary camera footage quickly and safely in case of emergency Will we begin to see a reduction of theft as new technology is implemented? We’re beginning to see incidents of shoplifting and theft being taken more seriously by law enforcement. In the coming months, for the first time in Britain nearly twenty shoplifters who were either caught red-handed or identified on CCTV will be appearing before magistrates. While currently these court cases are being pursued by a private police force, these actions come after a Government plea to high-level police to prosecute shoplifters stealing under £200. Retailers have long voiced concerns that forces have abandoned low-level thefts and these steps are small but show that businesses are being heard. As innovations in surveillance security continue, we’ll be seeing a move away from human involvement which will create a more reliable and efficient system able to rely on machine learning and analytics. While there have been wider strides made in utilising AI for surveillance, these are largely being used currently by local governments to alert police forces to threats of criminal activity. It’s not unreasonable to think that in the near future, these types of smart technology will be employed by private businesses to analyse suspicious behaviour or possible theft. However, as we see an increase in the advancement of security technology, we anticipate that those inclined to commit in-store theft will adapt their methods, therefore retailers should look to regularly evaluate their security needs to keep risks at bay.
Motion detection is a key feature of security systems in residential and commercial environments. Until recently, systems have relied heavily on closed circuit television (CCTV) and passive infrared (PIR) sensors, which both require significant investment and infrastructure to install and monitor. Developments in wireless technology are increasing home security possibilities. Few years ago, these developments led Cognitive Systems to discover that the wireless signals surrounding oneself can be used to detect motion. Known in the wireless industry as WiFi sensing, this technology brings many benefits that other motion detection solutions have not been able to provide. The working of WiFi sensing At Cognitive Systems, the company has used WiFi sensing technology to develop a motion detection solution called WiFi Motion™, which measures and interprets disruptions in RF signals transmitted between WiFi devices. When movement occurs in a space, ripples in the wireless signals are created. WiFi Motion interprets these ripples and determines if an action, such as sending a notification, is needed. Enabling this functionality in a space is incredibly simple. With a software upgrade to only one’s WiFi access point (or mesh router), motion sensing capabilities are layered into one’s WiFi network. Existing connected WiFi devices then become motion detectors without detracting from their original functions or slowing down the network. Using artificial intelligence (AI), WiFi Motion establishes a benchmark of the motionless environment and learns movement patterns over time, which could be used to predict trends. This allows unusual movement patterns to be detected with greater accuracy while decreasing the potential for costly false alerts. WiFi Motion requires no line-of-sight or installation WiFi sensing and other home monitoring solutions All of these capabilities are made possible by WiFi sensing and together create a motion detection system that provides unparalleled accuracy, coverage, privacy and affordability compared to other solutions on the market. PIR integration is far more complex and imposes electronic and physical design restrictions compared to WiFi sensing. In terms of placement, PIR systems are difficult to install, requiring line-of-sight and a device in every room for localisation. WiFi Motion requires no line-of-sight or installation and is also a scalable solution compared to PIR. Much like cameras, PIRs can only cover so much space, but WiFi Motion can cover the entire home and even detect motion in the dark and through walls, without adding additional devices to the home. WiFi Motion detects less distinguishing context than cameras and microphones, but more context than regular PIR sensors for the perfect balance of privacy and highly accurate motion detection. Privacy solution While cameras have been the security solution for years, WiFi Motion offers a more affordable solution that can rival the privacy and coverage capabilities of even the most high-end cameras. With such a wide coverage area, one might think that WiFi sensing infringes on privacy, but actually, the opposite is true. With WiFi Motion, the contextual information collected cannot be used to identify a specific individual, unlike cameras which can clearly identify a person’s face or microphones, which can identify a person’s voice. It is different from other smart home security options that use cameras and microphones because it only senses motion using WiFi signals - it doesn’t “see” or “listen” like a camera or microphone would. This provides opportunities for added security in spaces where privacy might be a concern and installing a camera may not be a comfortable solution, such as bathrooms and bedrooms. The data collected is also anonymised and highly encrypted according to stringent industry privacy standards. Existing connected WiFi devices then become motion detectors Additional WiFi sensing applications Since WiFi sensing technology requires no additional hardware or subscription fees, it is much more affordable than other motion detection solutions. It can be used as a standalone solution, or it can be easily layered into more complex systems. This ease of integration, scalability and relatively low cost brings a lot of potential for various applications. Motion detection can trigger other smart devices in the network to turn lights on or off In eldercare, for example, WiFi sensing can be used to help seniors live comfortably in their homes for as long as possible. With the increasing aging population and high costs associated with care homes, the market for this application is considerable. Caregivers can use an app to monitor movement in their loved one’s home and be alerted about unusual movement patterns that could indicate a concern. For smart homes and other environments that have a network of smart devices, the artificial intelligence (AI) component of the technology allows for improvements to automated features. Motion detection can trigger other smart devices in the network to turn lights on or off or make adjustments to the temperature in a room. Security for the commercial sector For office buildings and other commercial properties, it is easy to see how all of these features could be scaled up to offer a highly accurate and cost-effective motion sensing and smart device automation solution. Cognitive Systems is closely involved with the development of WiFi sensing technology, working with various industry groups to establish standards and help it reach its full potential. WiFi Motion is merely the tip of the iceberg in terms of motion sensing possibilities, but its applications in the world of security are undeniably compelling. It is an exciting time for the wireless industry, as one works with stakeholders in the security space to explore everything this technology can do.
The safeguarding of premises through the monitoring of entrance and exit points has traditionally been a very manual aspect of security. Human operators have been relied on to make decisions about who to admit and deny based on levels of authorisation and the appropriate credentials. But the access control business, like many industries before it, is undergoing its own digital transformation; one where the protection of premises, assets and people is increasingly delivered by interconnected systems utilising IoT devices and cloud infrastructure to offer greater levels of security and protection. Modern access control solutions range from simple card readers to two factor authentication systems using video surveillance as a secondary means of identification, right through to complex networks of thermal cameras, audio speakers and sensors. These systems, connected through the cloud, can be customised and scaled to meet the precise requirements of today’s customer. And it’s the ease of cloud integration, combined with open technologies and platforms that is encouraging increasing collaboration and exciting developments while rendering legacy systems largely unfit for purpose. Remote management and advanced diagnostics Cloud technology and IoT connectivity means remote management and advanced diagnostics form an integral part of every security solution.Cloud technology and IoT connectivity means remote management and advanced diagnostics form an integral part of every security solution. For example, as the world faces an unprecedented challenge and the COVID-19 pandemic continues to cause disruption, the ability to monitor and manage access to sites remotely is a welcome advantage for security teams who might otherwise have to check premises in person and risk breaking social distancing regulations. The benefits of not physically having to be on site extend to the locations within which these technologies can be utilised. As an example, within a critical infrastructure energy project, access can be granted remotely for maintenance on hard to reach locations. Advanced diagnostics can also play a part in such a scenario. When access control is integrated with video surveillance and IP audio, real-time monitoring of access points can identify possible trespassers with automated audio messages used to deter illegal access and making any dangers clear. And with video surveillance in the mix, high quality footage can be provided to authorities with real-time evidence of a crime in progress. Comprehensive protection in retail Within the retail industry, autonomous, cashier-less stores are already growing in popularity The use of connected technologies for advanced protection extends to many forward-looking applications. Within the retail industry, autonomous, cashier-less stores are already growing in popularity. Customers are able to use mobile technology to self-scan their chosen products and make payments, all from using a dedicated app. From an access control and security perspective, connected doors can be controlled to protect staff and monitor shopper movement. Remote management includes tasks such as rolling out firmware updates or restarting door controllers, with push notifications sent immediately to security personnel in the event of a breach or a door left open. Remote monitoring access control in storage In the storage facility space, this too can now be entirely run through the cloud with remote monitoring of access control and surveillance providing a secure and streamlined service. There is much to gain from automating the customer journey, where storage lockers are selected online and, following payment, customers are granted access. Through an app the customer can share their access with others, check event logs, and activate notifications. With traditional padlocks the sharing of access is not as practical, and it’s not easy for managers to keep a record of storage locker access. Online doors and locks enable monitoring capabilities and heightened security for both operators and customers. The elimination of manual tasks, in both scenarios, represents cost savings. When doors are connected to the cloud, their geographical location is rendered largely irrelevant. Online doors and locks enable monitoring capabilities and heightened security for both operators and customers They become IoT devices which are fully integrated and remotely programmable from anywhere, at any time. This creates a powerful advantage for the managers of these environments, making it possible to report on the status of a whole chain of stores, or to monitor access to numerous storage facilities, using the intelligence that the technology provides from the data it collects. Open platforms power continuous innovation All of these examples rely on open technology to make it possible, allowing developers and technology providers to avoid the pitfalls that come with the use of proprietary systems. The limitations of such systems have meant that the ideas, designs and concepts of the few have stifled the creativity and potential of the many, holding back innovation and letting the solutions become tired and their application predictable. Proprietary systems have meant that solution providers have been unable to meet their customers’ requirements until the latest upgrade becomes available or a new solution is rolled out. This use of open technology enables a system that allows for collaboration, the sharing of ideas and for the creation of partnerships to produce ground-breaking new applications of technology. Open systems demonstrate a confidence in a vendor’s own solutions and a willingness to share and encourage others to innovate and to facilitate joint learning. An example of the dynamic use of open technology is Axis’ physical access control hardware, which enables partners to develop their own cloud-based software for control and analysis of access points, all the while building and expanding on Axis’ technology platform. Modern access control solutions range from simple card readers to two factor authentication systems using video surveillance as a secondary means of identification Opportunities for growth Open hardware, systems and platforms create opportunities for smaller and younger companies to participate and compete, giving them a good starting point, and some leverage within the industry when building and improving upon existing, proven technologies. This is important for the evolution and continual relevance of the physical security industry in a digitally enabled world. Through increased collaboration across technology platforms, and utilising the full range of possibilities afforded by the cloud environment, the manufacturers, vendors and installers of today’s IP enabled access control systems can continue to create smart solutions to meet the ever-changing demands and requirements of their customers across industry.
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3xLOGIC and Redwire deliver multi-phase security system project for Tampa (FL) Metropolitan Area YMCA
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