Hanwha Techwin’s Wisenet PNM-9000VD multi-sensor/multi-directional camera provides quality images and modular lens configuration at an affordable price. This camera supports 30fps image capture and true 120 dB WDR without compromising frame rate for each of its two 5MP sensors. Each sensor has its own Wisenet 5 chip, providing a full suite of built-in video analytics including loitering, directional detection, fog detection, tampering, motion detection and objects entering or exiting an area.
AI series products adopt the most advanced AI technologies, including deep learning algorithms that primarily target people and vehicles, which provides higher flexibility and accuracy for end-users. This enables the Dahua AI series to offer various advanced applications such as Face Recognition, Metadata, traffic data statistics, etc. The complete lineup of Dahua AI includes network (PTZ) cameras, network video recorders, servers, and more devices. Beyond seeing the world, the power of AI allows devices to perceive the environment and understand the world in a better way. System Overview Dahua PTZ AI network camera adopts advanced CNN deep learning algorithms to support face recognition with high accuracy. The Dual 4MP Starlight Smart Capture Camera consists of panoramic camera and PTZ camera. Panoramic camera captures panoramas, and then PTZ camera takes detailed snapshots of objects and keeps tracking objects after rule violations occur. This camera possess wide monitor range and PFA algorithm that can always present a clear, focused image while zooming. Functions Dual PTZ systemPanoramic camera and Detail camera of the dual PTZ system can be adjusted horizontally and vertically. Face RecognitionOnce facial features are extracted from captured faces, they are stored in a database where they can be easily searched and compared against other images. Once a successful match is found, the system outputs the result. The Dahua Face Recognition camera supports a built-in database that stores up to 10,000 facial images, helping the camera achieve realtime face capture and comparison. Starlight TechnologyFor challenging low-light applications, Dahua's Starlight Ultra-low Light Technology offers best-in-class light sensitivity, capturing color details in low light down to 0.001 lux. The camera uses a set of optical features to balance light throughout the scene, resulting in clear images in dark environments. PFA TechnologyPFA technology has innovatively introduced new methods of judgment to ensure the accuracy and predictability of the direction of subject distance adjustment. The result is a set of advanced focusing algorithms. PFA ensures clarity of the image throughout the process of zooming and shortens focus time. The realization of PFA technology substantially improves user experience and increases product value. MetadataMetadata is feature attribute information extracted from a target object which can be used for data retrieval. There are four kinds of metadata supported by Dahua PTZ AI camera: human face, human body, motor vehicle and non-motor vehicle metadata. Facial information includes gender, age, glasses, masks, beards, etc. Human body information includes hat, top, top color, bottom, bottom color, bag, etc. Motor vehicle information includes plate color, type, vehicle color, sunshield, ornament, calling, seatbelt, smoking, annual inspection sticker, etc. Non-motor vehicle information includes type, color, top type, top color, people number, etc. Smart trackingHuman, motor vehicle, and non-motor vehicle, or their combinations can be set as objects. Once the objects selected trigger detection rules (like tripwire and intrusion), the detail camera will track them automatically. Perimeter ProtectionAutomatically filtering out false alarms caused by animals, rustling leaves, bright lights, etc. Enables system to act secondary recognition for the targets. Improving alarm accuracy. InteroperabilityThe camera conforms to the ONVIF (Open Network Video Interface Forum) specifications, ensuring interoperability between network video products regardless of manufacturer.
VIVOTEK ‘s new CC9381-HV is a 180-degress panoramic network camera, featuring its compact design and high-quality image capability, making it suitable for a wide array of both indoor and outdoor environments, such as boutiques, convenience stores, banks, schools and homes. Along with offering amazing 180° HFOV coverage, CC9381-HV offers up to 20 fps at 5-Megapixel resolution (30 fps at 5MP with WDR Off). This Panoramic Network Camera also incorporates other value-added features.With IR built-in 180° IR illuminators up to 15 meters, no matter day or night, light or dark, the new CC9381-HV always provides complete video security. Further, due to the SNV technology, areas of low light visibility are no longer an issue either. Equipped with WDR Pro technology, the CC9381-HV enable the camera to maintain optimal image quality and unparalleled visibility in high contrast lighting environments, as well as combined both H.265 and VIVOTEK Smart Stream III, it can reduce bandwidth and storage consumption more than 90% compared to traditional H.264 without smart streaming. In addition to its versatile coverage and features, the CC9381-HV is safeguarded by Trend Micro IoT Security to provide users with higher levels of network protection.
Consider your security needs met. The experts in thermal and perimeter security have packed everything you need into one affordable, easy-to-install camera. The FLIR Saros DH-390 Dome Camera includes IR and visible illuminators, plus Lepton thermal sensors to allow you to see in any condition. And with high-resolution video, you’ll never miss a thing.
The Contera NVR Appliance from Arecont Vision Costar is designed to offer powerful IP recording in an affordable, compact chassis. The Contera NVR Appliance is equipped with an on-board 8 or 16 channel PoE switch, that can be upgraded to 24 channels, allowing for Plug and Play connection with ConteraWS® or ONVIF cameras. With full integration to Contera Web Services, the Contera NVR Appliance offers centralised user management, single sign-on convenience, mobile apps and a web client that allows for easy remote connection to your recorders. Network setup is fast and easy using Contera Web Services, and eliminates the need for port forwarding or DDNS. The Contera NVR Appliance runs on a secure Linux OS and comes preloaded with ConteraVMS® Server software as a turnkey solution.
The Evolution Stainless Steel cameras, part of Oncam’s Specialist Camera Range, are unique to the 360-degree video surveillance market as they are the only ones certified for tough environments, indoor and outdoor. The 05MP and 12MP versions have been specifically designed to meet the needs of customers operating in demanding environments such as Food Processing, Industrial, Maritime and Ports and Safe City applications. The cameras’ resilient Stainless Steel 316 housing is manufactured for enhanced corrosion resistance. The IP66, IP67, IP68, IP69K, and NEMA 4X and 6P ratings make the enclosure fit for harsh environments, while its IK10+ rating makes it resistant to impacts of 40 joules. The NSF certification and HCV EU mark make the camera range unique, guaranteeing compliance with standards for commercial food equipment in both North America as well as Europe. The only 360-degree fisheye camera in a stainless steel housing, Oncam’s new and improved camera range is available for surface and pendant mount installations. A matching stainless steel arm allows for wall, corner and pole mounting. Evolution 05 Stainless Steel: EVO-05-SS2 Evolution 12 Stainless Steel: EVO-12-SS2
Hikvision has launched a new Fisheye IP camera series (DS-2CD63X5G0) with AI. This 360˚ panoramic camera uses the deep learning technology to deliver a more accurate heat map functionality. It gives an enhanced view of its surroundings – and is especially useful in large retail applications. The cameras’ 360˚ panoramic image of the scene before it, means the user can see a wider area much more clearly. This is enhanced by independent control of a three-way infrared light, which can be separately configured to reduce the amount of ‘reflective’ wall space. This improves image quality, especially when placed in a corner location. The deep learning algorithm focuses only on human targets, improving the accuracy of the heat map functionality. This means users can see ‘hotspots’ in a space, showing areas that people visit, or pass, the most. An added layer to the heat map visualisation makes it a lot clearer than previous technologies, presenting more information in a clearer way. Despite the high quality of the images, the cameras boast extremely light bandwidth, saving storage and costs by using H265+ compression technology. They also support Multiple Expansion Modes, with up to 15 live view display modes available, designed for three different mounts. This means they can be more easily adjusted to meet the users’ exact preferences, and improve their browsing experience. Other features include: New Immervision lens (only 12MP, 1.29mm lens model) Up to 12MP resolution 120 dB WDR Up to 15m IR range Built-in microphone and speaker Smart features: 6 behaviour analyses, and 3 exception detections IK10/IP66 available. The cameras will be a useful addition to retail solutions, with heat mapping helping owners to understand customers’ psychology and identify which products attract the most attention on the shop floor. They can also be used in other large area applications, like train stations and public squares. The series will also be a boon to installers, with the ability to achieve monitoring which has no ‘dead angles’, making the solution more efficient and reducing installation costs. “We pride ourselves on continually advancing our technology and how it is implemented”, says Peter Guan, Director of Channel Sales and Marketing for Hikvision Europe. “This new Fisheye camera will provide clear flow information that will help users to make the right business decisions to make their spaces much more profitable.”
The Evolution 180 Indoor camera is built upon Oncam’s expertise and heritage on 360-degree technology. It’s been specifically designed for applications that require a dewarped panoramic view of a scene, without blind spots, from a single sensor camera. The 5:2 Panoramic+ stream provides a perfect balance between image quality and bandwidth efficiency. In addition, when mounting on an angle, Oncam’s Angle Compensation Technology (ACT) corrects the view, straightening vertical lines in the scene. The true day/night functionality allows images to be produced in all lighting conditions, including additional IR lighting. The camera is provided with three different mounting back boxes (0°, 25° and 45°), which also double up as pendant mount. EVO-180-WID (White) / EVO-180-WJD (Black)
Increase safety and reduce risk on board your transit vehicles with March Networks® RideSafe MT Series IP Recorders. These all-IP units deliver highly-reliable video surveillance recording and management in a compact, rugged design that is ideal for mid-sized vehicles – like student and patient shuttles and paratransit buses. Available in 4-channel and 6-channel models, the RideSafe MT Series solution enables operators to capture everything that’s happening on the bus, inside and out. Whether you have one or a thousand vehicles, this plug-and-play recorder can operate as a standalone unit programmable through embedded software, or be remotely managed and monitored daily using March Networks Command™ for Transit video management software. Video from the recorder can also be integrated with existing CAD and AVL systems and mobile routers. Key RideSafe MT Series features include: Front panel LEDs for easy recorder diagnostics, including operational, recording and video export status Embedded Linux OS, to ensure reliable and secure video recording Real-time health monitoring, alerting operators to camera, recorder and network issues before they affect performance Vehicle metadata integration from CAD/AVL systems and accelerometers for accurate re-enactments, driver monitoring and investigations Configurable recording policies based on schedule, motion, incident/event and other user-definable variables Powerful video management software, providing the advanced tools and features needed to manage entire fleets Automated video and data extraction over WiFi or 4G networks Extended thermal range (ETR) models available
Z3 Smart Camera Home Security System is the ideal solution for the small to mid-size home owner who is looking for a comprehensive smart home security system with boundless expandability. With so many sensors and accessories out in the market, how can a user find what they need to start off with? The multifunctional Z3 Smart Camera Security System provides an all-in-one solution with built-in basics, including 1080p HD Camera, PIR motion, temperature, humidity, and ambient lux light sensors, and two-way clear voice intercom system with echo cancellation feature. Z3 is compatible with RF, ZigBee and Z-Wave accessories, supporting up to 160 wireless sensors, to create endless possibilities to help users to create comprehensive smart home security. Add on voice prompt, loud siren, and backup battery, Z3 makes it possible to provide comprehensive smart home security services, including remote management, home security, live visual monitoring, home automation, energy management and emergency monitoring, designed to bring all-around convenience, comfort and safety. Z3 brings a complete and cost-effective smart home solution for users to experience a secure, and comfortable lifestyle. Features Communication Path: IP (Ethernet), WiFi, 3G/4G Built-in Protocol Options: RF, ZigBee, Z-Wave Two area configurations, supports up to 160 zones Alarm event reporting via CID/SIA Email / SMS /Push Notification via Cloud Server Camera: 1920x1080p high-resolution with 152° diagonal wide-angle lens Temperature Sensor: detects temperature from -10°C~ 50°C (14°F~ 122°F) Humidity Sensor: humidity range 0 ~ 100%RH PIR Motion Sensor: 7m range @ 100° degrees Ambient Light Sensor: detects light lux levels Home Security capabilities Security Visual Verification and Real-time Monitoring & Reporting ZigBee and Z-Wave based home automation capabilities Energy Management capabilities 24/7 Environment Emergency Monitoring Built-in siren, voice prompt, microSD slot Remote management via Smartphone App and Web browser Specifications ZigBee Protocol: ZigBee Pro HA 1.2, 2.4GHz Z-Wave Protocol: Z-Wave 868.40MHz (EU) / 908.40MHz (US) RF Frequencies: 433 MHz / 868MHz Wi-Fi Module: 802.11 b/g/ n 4G Frequencies: 2100 / 2600 / 1900 / 1800 / 900 / 850 / 700MHz Power Supply: 12V/2A, 100~240VAC Backup Battery: 7.2V, 1600mA NiMh rechargeable battery pack Backup Battery Life: 15 hours* Siren: 95dB @ 1m Memory Card Slot: MicroSD card Operating Temperature: -10° to 45°C (14°F to 113°F) Operating Humidity: Up to 85% non-condensing
VIVOTEK ‘s new MA9322-EHTV is a multi-sensor adjustable dome network camera. Featuring four independent 5MP CMOS Sensors with IR illuminators, the MA9322-EHTV allows users to simultaneously view four different areas while occupying only a single IP address, making this camera ideally suited for surveillance in areas such as hallway intersections, building corners, parking garages/lots, and shopping malls. It reduces the total number of cameras needed for surveillance, helping to lower total installation time and costs. By adding IR illumination up to 30 meters, no matter day or night, light or dark, the new MA9321-EHTV always provides complete video security. Further, due to the SNV technology, areas of low light visibility are no longer an issue either. The MA9322-EHTV is equipped with a removable IR-cut filter and WDR Pro technology, enabling the camera to maintain optimal image quality and unparalleled visibility in high contrast lighting environments, as well as combined both H.265 and VIVOTEK Smart Stream III, the MA9322-EHTV can reduce bandwidth and storage consumption more than 90%* compared to traditional H.264 without smart streaming. In addition to its versatile coverage and features, the MA9322-EHTV is safeguarded by Trend Micro IoT Security to provide users with higher levels of network protection
VIVOTEK's newly designed MS9321-EHV multi-sensor panoramic network camera applies the brand new Robocop design with built-in sunshield to cover four 5-megapixel sensors in 65-degree vertical field of view and support IR illuminators effective up to 30 meters. It offers the highest resolution and maximum field of view, reducing the total number of cameras required and helping save on the installation costs. Furthermore, the MS9321-EHV is also safeguarded by Trend Micro IoT Security. Featuring 4 x 5MP CMOS Sensors, the multiple sensor network camera can monitor full 180° horizontal views and deliver the highest-quality comprehensive coverage, making it an ideal outdoor surveillance solution with excellent image details. Improving on the previous version, the MS9321-EHV now includes H.265 compression for reduced bandwidth and storage over H.264 compression. WDR Pro (120dB) has been added for improved image quality in high contrast environments. Smart IR II is included for manual or auto IR adjustments based on different night viewing scenarios. And last but not least, the MS9321-EHV is capable of 30fps at all resolutions including the max 20MP. Like its predecessor MS8391-EV, the MS9321-EHV has the Video Alignment feature that allows you to adjust the positioning and image quality of each sensor, enabling users to view a seamless picture, with no repetition. MS9321-EHV's new housing design is IP66 and IK10-rated to enable use in rain and dust as well as to protect against vandalism or tampering. The new housing design also allows for more tilt and pan during installation, allowing for more versatility.
Hikvision has launched a new Thermal Bullet camera (DS-2TD2117) that boasts Deep Learning capabilities and a new sensor that improves the quality of its images. This product brings thermal technology to a lower budget scenario, making it practical for smaller solutions. Developing earlier versions, the DeepinView camera is equipped with a new improved 160 x 120 pixel sensor in the Hikvision family. The camera is also more sensitive – detecting to a noise-equivalent temperature difference (NETD) of 40mk (previous models went to 50mk). NETD is an industry standard measurement of a sensor’s sensitivity to thermal radiation in certain parts of the electromagnetic spectrum. Based on deep learning algorithms, the camera also delivers powerful and accurate behavior analysis, including detections such as line crossing, intrusion, region entrance and exit. The intelligent human/vehicle detection feature helps reduce false alarms caused by animals, camera shake, falling leaves, or other irrelevant objects, significantly improving alarm accuracy. In addition, the cameras are equipped with a built-in GPU. This high-performance GPU can support updates with more complex algorithms with larger data samples in the future to further improve the intelligent effect of Video Content Analytics (VCA). Other features include: Reliable temperature exception alarm function Advanced fire detection and smoking detection algorithm 160 x 120 resolution sensor, high sensitivity sensor, support contrast adjustment Shutter adjustment in various modes 3D DNR, 15 palettes of color adjustable, image detail enhancement. The camera’s short focal length (3mm or 6mm) makes it a crucial element in smaller perimeter solutions, like yards or car parks for small businesses. Its fire protection capabilities come in handy in solutions like warehouse and rubbish dumps, where avoiding fire is a priority. In essence, this camera can reduce costs, and prevent damage but also, more importantly, can increase safety by detecting potential fires before they happen. “Our R&D Center is 10,000 strong and this is a great example of how they are pushing forward the boundaries of technology”, says Peter Guan, Director of Channel Sales and Marketing for Hikvision Europe. “Using a new thermal sensor means that we can deliver a more sensitive, and so more effective, product to customers.”
VIVOTEK’s IB9387-LPR camera is a standalone LPR camera system, featuring built-in license plate recognition software and edge-computing capability without additional server, the IB9387-LPR can identify license plates from over 70 countries around the world. It converts number plates into Wiegand signals for use with an access control system, and also offers various APIs for integration with 3rd party systems such as parking management, toll collection, and weighbridge systems. The system is ideally applied for parking access control and Stop & Go toll systems or any LPR applications where a vehicle stops, or almost comes to a complete stop. Supported Both Simple and Complex Scenarios The IB9387-LPR camera can work as an embedded access control application based on LPR software. It can trigger digital output device on this camera when a number plate is recognised and matched the data in list such as white list. This IB9387-LPR camera can convert number plates into Wiegand signals to work with access control system. Centralised List Management With a black & white list embedded inside the IB9387-LPR, the control barrier will open the gate when a white list vehicle is detected. On the other hand, a black list vehicle will trigger an alarm and a notification will be sent to security staff. With VIVOTEK’s IB9387-LPR, security staffs of parking lots with multiple entry points no longer need to upgrade system one after another. They can simply upload these lists to a single centralised LPR camera and all the other LPR cameras will download the master list, thus significantly reducing both installation time and maintenance efforts. Easily Integrated with 3rd Party Systems Thanks to its various Application Programming Interfaces (APIs), third-party systems such as parking management, toll collection, and weighbridge systems are able to receive live LPR images with specific country, state, date, time, and confidence level from IB9387-LPR. Finally, the sophisticated camera is safeguarded by Trend Micro IoT Security, providing proactive protection in cybersecurity. Combining recognition and management technology, VIVOTEK’s IB9387-LPR offers an intelligent, scalable and highly secure standalone LPR system.
The IDIS 12MP Super Fisheye camera delivers 360° HD surveillance, with clear identification from center to edge and wall to wall. Built-in IR LEDs ensure nearly 50-ft night visibility, with support for true WDR up to 120dB. It offers camera-side and client-side dewarping (including on smartphones), giving users the widest choice of recording platforms and VMS options. And the groundbreaking ease and accuracy of IDIS's Smart UX Controls v2.0 allows for effortless dewarping, including agile PTZ in a dewarped state. The Super Fisheye also offers the benefit of IDIS Intelligent Codec with MAT, delivering up to 90% storage and bandwidth savings.
1/2 inch, Colour / Monochrome, 4MP TVL resolution, Digital (DSP), Auto Iris, Direct Drive, 0 ~ 0.02 lux, 12 V DC, 24 V AC, HD, 3.7 ~ 11, Wide Dynamic Range, 2560 x 1440, Back Light Compensation, Auto Gain Control, White Balance, 1/25(1/30) ~ 1/50,000s, 65, PAL, NTSC, 13.5 W, 244 x 90 x 90, 800, -30 ~ +60 C (-22 ~ +140 F), IP67, 0 ~ 95Add to Compare
1/3 inch, Colour / Monochrome, 2MP TVL resolution, Digital (DSP), Auto Iris, Direct Drive, 0 ~ 0.004 lux, 12 V DC, HD, Motion Activated, 6 ~ 22, Wide Dynamic Range, 1920 x 1080, Back Light Compensation, Auto Gain Control, White Balance, 1/4(1/3) ~ 1/100,000s, 65, PAL, NTSC, Zoom, 1-channel BNC high definition video output / CVBS video output, 8.2 W, 244 x 90 x 90, 760, -30 ~ +60 C (-22 ~ +140 F), IP67, 0 ~ 95Add to Compare
1/3 inch, Colour / Monochrome, 2MP TVL resolution, Digital (DSP), Auto Iris, Direct Drive, 0 ~ 0.004 lux, 12 V DC, HD, Motion Activated, 2.7 ~ 13.5, Wide Dynamic Range, 1920 x 1080, Back Light Compensation, Auto Gain Control, White Balance, 1/4(1/3) ~ 1/100,000s, 65, PAL, NTSC, 1-channel BNC high definition video output / CVBS video output, 10.2 W, 244 x 90 x 90, 790, -30 ~ +60 C (-22 ~ +140 F), IP67, 0 ~ 90Add to Compare
1/3 inch, Colour / Monochrome, 2MP TVL resolution, Digital (DSP), Auto Iris, Direct Drive, 0.02 ~ 0.002 lux, 12 V DC, HD, 3.6, Wide Dynamic Range, 1920 x 1080, Back Light Compensation, Auto Gain Control, White Balance, 1/25(1/30) ~ 1/50,000s, 65, PAL, NTSC, 1-channel BNC high definition video output / CVBS video output, 0.8 W, 120 x 62 x 58, 130, -10 ~ +50 C (14 ~ 122 F), 0 ~ 95Add to Compare
1/3 inch, Colour / Monochrome, 2MP TVL resolution, Digital (DSP), Auto Iris, Direct Drive, 0 ~ 0.02 lux, 12 V DC, HD, Motion Activated, 2.8 ~ 3.6, Wide Dynamic Range, 1920 x 1080, Back Light Compensation, Auto Gain Control, White Balance, 1/25(1/30) ~ 1/50,000s, 65, PAL, NTSC, 1-channel BNC high definition video output / CVBS video output, 3.9 W, 147 x 72 x 83, 230, -10 ~ +50 C (14 ~ 122 F), IP67, 0 ~ 95Add to Compare
1/3 inch, Colour / Monochrome, 5MP TVL resolution, Digital (DSP), Direct Drive, 0 ~ 0.02 lux, 12 V DC, HD, Motion Activated, 3.6, Wide Dynamic Range, 2592 x 1944, Back Light Compensation, Auto Gain Control, White Balance, 1/25(1/30) ~ 1/50,000s, 65, PAL, NTSC, 4.5 W, 147 x 72 x 83, 230, -10 ~ +50 C (14 ~ 122 F), IP67, 0 ~ 95Add to Compare
1/3 inch, Colour / Monochrome, 5MP TVL resolution, Digital (DSP), Direct Drive, 0 ~ 0.04 lux, 12 V DC, HD, 2.8 ~ 6, Wide Dynamic Range, 2592 x 1944, Back Light Compensation, Auto Gain Control, White Balance, 1/25(1/30) ~ 1/50,000s, 65, PAL, NTSC, 1-channel BNC high definition video output / CVBS video output, 3.9 W, 70 x 70 x 149, 150, -40 ~ +60 C (-40 ~ 140 F), IP67, 0 ~ 95Add to Compare
1/3 inch, Colour / Monochrome, 5MP TVL resolution, Digital (DSP), 0 ~ 0.04 lux, 12 V DC, HD, 2.8 ~ 6, Wide Dynamic Range, 2592 x 1944, Back Light Compensation, Auto Gain Control, White Balance, 1/25(1/30) ~ 1/50,000s, 65, PAL, NTSC, 1-channel BNC high definition video output / CVBS video output, 3.9 W, 70 x 70 x 158, 240, -40 ~ +60 C (-40 ~ 140 F), IP67, 0 ~ 95Add to Compare
1/3 inch, Colour / Monochrome, 5MP TVL resolution, Digital (DSP), 0 ~ 0.04 lux, 12 V DC, HD, Motion Activated, 2.7 ~ 12, Wide Dynamic Range, 2592 x 1944, Back Light Compensation, Auto Gain Control, White Balance, 1/25(1/30) ~ 1/50,000s, 65, PAL, NTSC, 1-channel BNC high definition video output / CVBS video output, 5.9 W, 210 x 90 x 90, 590, -30 ~ +60 C (-22 ~ +140 F), IP67, 0 ~ 95Add to Compare
1/3 inch, Colour / Monochrome, 2MP TVL resolution, Digital (DSP), Direct Drive, 0 ~ 0.008 lux, 12 V DC, HD, 2.8 ~ 6, Wide Dynamic Range, 1920 x 1080, Back Light Compensation, Auto Gain Control, White Balance, 1/25(1/30) ~ 1/50,000s, 65, PAL, NTSC, 1-channel BNC high definition video output / CVBS video output, 3 W, 199 x 80 x 76, 220, -40 ~ +60 C (-40 ~ +140 F), IP67, 0 ~ 90Add to Compare
1/3 inch, Colour / Monochrome, 2MP TVL resolution, Digital (DSP), Direct Drive, 0 ~ 0.008 lux, 12 V DC, HD, Motion Activated, 2.8 ~ 6, Wide Dynamic Range, 1920 x 1080, Back Light Compensation, Auto Gain Control, White Balance, 1/25(1/30) ~ 1/50,000s, 65, PAL, NTSC, 1-channel BNC high definition video output / CVBS video output, 5.3 W, 248 x 91 x 90, 340, -40 ~ +60 C (-40 ~ +140 F), IP67, 0 ~ 90Add to Compare
1/3 inch, Colour / Monochrome, 2MP TVL resolution, Digital (DSP), Direct Drive, 0 ~ 0.008 lux, 12 V DC, HD, Motion Activated, 2.8 ~ 6, Wide Dynamic Range, 1920 x 1080, Back Light Compensation, Auto Gain Control, White Balance, 1/25(1/30) ~ 1/50,000s, PAL, NTSC, 1-channel BNC high definition video output / CVBS video output, 3.7 W, 176 x 72 x 73, 360, -40 ~ +60 C (-40 ~ +140 F), IP67, 0 ~ 95Add to Compare
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Today, the world is connected like never before. Your watch is connected to your phone, which is connected to your tablet and so on. As we’ve begun to embrace this ‘smart’ lifestyle, what we’re really embracing is the integration of systems. Why do we connect our devices? The simplest answer is that it makes life easier. But, if that’s the case, why stop at our own personal devices? Connection, when applied to a business’ operations, is no different: it lowers effort and expedites decision making. Integrating security systems Systems integration takes the idea of connected devices and applies it to an enterprise Systems integration takes the idea of connected devices and applies it to an enterprise, bringing disparate subcomponents into a single ecosystem. This could mean adding a new, overarching system to pull and collect data from existing subsystems, or adapting an existing system to serve as a data collection hub. Regardless of the method, the purpose is to create a single, unified view. Ultimately, it’s about simplifying processes, gaining actionable insights into operations and facilitating efficient decision-making. Although integration is becoming the new norm in other areas of life, businesses often opt out of integrating security systems because of misconceptions about the time and resources required to successfully make the change. So, instead of a streamlined operation, the various security systems and devices are siloed, not communicating with each other and typically being run by different teams within an organisation. Time-intensive process When systems are not integrated, companies face a wide range of risks driven by a lack of transparency and information sharing, including actual loss of property or assets. For example, a team in charge of access control is alerted to a door being opened in the middle of the night but can’t see what exactly is taking place through video surveillance. Without integrated systems they have no way of knowing if it was a burglar, an equipment malfunction or a gust of wind. Without integration between systems and teams, the ability to quickly put the right pieces in front of decision makers is missing. Instead, the team would have to go back and manually look for footage that corresponds with the time a door was open to figure out which door it was, who opened it and what happened after, which can be a time-intensive process. Integrating access control and surveillance systems Theft and vandalism occur quickly, meaning systems and users must work faster in order to prevent it This slowed response time adds risk to the system. Theft and vandalism occur quickly, meaning systems and users must work faster in order to prevent it. Security systems can do more than communicate that theft or vandalism occurred. Properly integrated, these systems alert users of pre-incident indicators before an event happens or deter events altogether. This gives teams and decision makers more time to make effective decisions. Integrating access control and surveillance systems allows for a more proactive approach. If a door is opened when it’s not supposed to be, an integrated system enables users to quickly see what door was opened, who opened it and make a quick decision. Integrated solutions are more effective, more efficient and help drive cost-saving decisions. Ideally, companies should establish integrated solutions from the start of operations. This allows companies to anticipate problems and adjust accordingly instead of reacting after an incident has occurred. Security camera system Although starting from the beginning is the best way to ensure comprehensive security, many companies have existing security systems, requiring integration and implementation to bring them together. Typically, companies with established security systems worry about the impact to infrastructure requirements. Is additional infrastructure necessary? How and where should it be added? What financial or human resources are required? These concerns drive a mentality that the benefits gained from an integrated solution aren’t worth the costs of implementation. Thankfully, this is becoming less of a problem as security providers, like Twenty20™ Solutions, work to offer adaptable solutions. With flexible options, operators don’t worry about adding or replacing infrastructure to align with a provider’s model. This allows users to monitor camera footage and gate traffic from one system If a company has an existing security camera system, but identifies a need for access control, a modern integrated solution provider can supply the gates for access points and equip the gates and cameras with the technology to connect the two. This allows users to monitor camera footage and gate traffic from one system. This model also spares operators additional costs by using a sole vendor for supplemental needs. Overall management of security While a single, unified system is beneficial for cost saving, it can also help the overall management of security. The ability to view all operating systems in one dashboard allows security personnel to manage a site from any location, reducing the expense and effort required to manage a system. The mobile world today means security directors no longer need to be in a centralised operations center to see alerts and make decisions. This simplifies processes by allowing users to quickly see an alert, pull up a camera, delete a user or check an access log from a phone. Modern networks are secure and accessible to those with permissions, without requiring those users to be physically present. Consolidating security systems is the first step companies can take toward streamlining work, information and costs. The next step is integrating all sites, both remote and on-grid. Energy and communication technology The integration of sites and systems turns mountains of data and information into actionable intelligence Traditional methods demanded two systems: one for on-grid facilities and another for off-grid locations. With advancements in energy and communication technology, the need for multiple systems is gone. Data from remote sites can be safely and securely fed into an existing system. These remote locations may gather, distribute and manage data in a different manner than a connected system due to the cost of transmission via remote connections (i.e., cellular or satellite connection). The end result, however, is a consistent and holistic view of operations for the decision maker. The integration of sites and systems turns mountains of data and information into actionable intelligence. With connected devices monitoring occurrences at individual sites, as well as events across locations, the data tells a story that is unhindered by operational silos or physical space. Identifying patterns and trends Instead of providing 10 hours-worth of footage that may or may not be relevant, system analytics can provide users with the specific set of information they need. Incidents once discarded as ‘one-off’ events can now be analysed and data-mapped to identify patterns and trends, directing future resources to the most critical areas first. Consumers are increasingly expecting everything they need to be right where they need it – and businesses are right behind them. The current generation of security professionals are increasingly expecting the simplicity of their everyday personal tasks to be mirrored in enterprise systems, which means giving them the ability to see what matters in one place. A unified system can provide just that, a single view to help simplify processes, promote cost saving and accelerate decision making.
There’s a lot of hype around the term ‘digital transformation.’ For some, it’s the integration of digital technology into everyday tasks. For others, it’s the incorporation of innovative processes aimed at making business optimisation easier. In most cases, digital transformation will fundamentally change how an organisation operates and delivers value to its customers. And within the security realm, the age of digital transformation is most certainly upon us. Technology is already a part of our day-to-day lives, with smart devices in our homes and the ability to perform tasks at our fingertips now a reality. No longer are the cloud, Internet of Things (IoT) and smart cities foreign and distant concepts full of intrigue and promise. Enhancing business operations We’re increasingly seeing devices become smarter and better able to communicate with each other These elements are increasingly incorporated into security solutions with each passing day, allowing enterprises the chance to experience countless benefits when it comes to enhancing both safety and business operations. The term ‘connected world’ is a derivative of the digital transformation, signifying the increasing reliance that we have on connectivity, smart devices and data-driven decision-making. As we become more familiar with the advantages, flaws, expectations and best practices surrounding the connected world, we can predict what issues may arise and where the market is heading. We’re increasingly seeing devices become smarter and better able to communicate with each other through the IoT to achieve both simple goals and arduous tasks. Within our homes, we’re able to control a myriad of devices with commands (‘Hey Google...’ or ‘Alexa...’), as well as recall data directly from our mobile devices, such as receiving alerts when someone rings our doorbell, there’s movement in our front yard or when a door has been unlocked. Analytics-driven solutions The focus is now shifting to the business impacts of connectivity between physical devices and infrastructures, and digital computing and analytics-driven solutions. Within physical security, connected devices can encompass a variety of sensors gathering massive amounts of data in a given timeframe: video surveillance cameras, access control readers, fire and intrusion alarms, perimeter detection and more.As the data from each of these sensors is collected and analysed through a central platform, the idea of a connected world comes to fruition, bringing situational awareness to a new level and fostering a sense of proactivity to identifying emerging threats. The connected world, however, is not without its challenges, which means that certain considerations must be made in an effort to protect data, enhance structured networking and apply protective protocols to developing technology. Physical security systems We can expect to see the conversations regarding data privacy and security increase as well As the use of connected devices and big data continue to grow, we can expect to see the conversations regarding data privacy and security increase as well. Connectivity between devices can open up the risk of cyber vulnerabilities, but designing safeguards as technology advances will lessen these risks. The key goal is to ensure that the data organisations are using for enhancement and improvements is comprehensively protected from unauthorised access. Manufacturers and integrators must be mindful of their products' capabilities and make it easy for end users to adhere to data sharing and privacy regulations. These regulations, which greatly affect physical security systems and the way they're managed, are being implemented worldwide, such as the European Union's General Data Protection Regulation (GDPR). In the United States, California, Vermont and South Carolina have followed suit, and it can be expected that more countries and U.S. states develop similar guidelines in the future. Technology is already a part of our day-to-day lives, with smart devices in our homes and the ability to perform tasks at our fingertips now a reality Automatic security updates Mitigating the concerns of the ‘connected world’ extends beyond just data privacy. IoT technology is accelerating at such a pace that it can potentially create detrimental problems for which many organisations may be ill-prepared - or may not even be able to comprehend. The opportunities presented by an influx of data and the IoT, and applying these technologies to markets such as smart cities, can solve security and operational problems, but this requires staying proactive when it comes to threats and practicing the proper protection protocols. As manufacturers develop devices that will be connected on the network, integrating standard, built-in protections becomes paramount. This can take the form of continuous vulnerability testing and regular, automatic security updates. Protocols are now being developed that are designed to ensure everything is encrypted, all communications are monitored and multiple types of attacks are considered for defensive purposes to provide the best security possible. IoT-connected devices Hackers wishing to do harm will stop at nothing to break into IoT-connected devices Built-in protection mechanisms send these kinds of systems into protection mode once they are attacked by an outside source. Another way for manufacturers to deliver solutions that are protected from outside threats is through constant and consistent testing of the devices long after they are introduced to the market. Hackers wishing to do harm will stop at nothing to break into IoT-connected devices, taking every avenue to discover vulnerabilities. But a manufacturer that spends valuable resources to continue testing and retesting products will be able to identify any issues and correct them through regular software updates and fixes. ‘IoT’ has become a common term in our vocabularies and since it’s more widely understood at this point and time, it's exciting to think about the possibilities of this revolutionary concept. Providing critical insights The number of active IoT devices is expected to grow to 22 billion by 2025 — a number that is almost incomprehensible. The rise of 5G networks, artificial intelligence (AI) and self-driving cars can be seen on the horizon of the IoT. As more of these devices are developed and security protocols are developed at a similar pace, connected devices stand to benefit a variety of industries, such as smart cities. Smart cities rely on data communicated via the IoT to enhance processes and create streamlined approaches Smart cities rely on data communicated via the IoT to enhance processes and create streamlined approaches to ensuring a city is well-run and safe. For example, think of cameras situated at a busy intersection. Cameras at these locations have a variety of uses, such as investigative purposes in the event of an accident or for issuing red-light tickets to motorists. But there are so many other possible purposes for this connected device, including providing critical insights about intersection usage and traffic congestion. These insights can then be used to adjust stoplights during busy travel times or give cities valuable data that can drive infrastructure improvements. Physical security market The impact of connected devices on cities doesn’t stop at traffic improvement. The possibilities are endless; by leveraging rich, real-time information, cities can improve efficiencies across services such as transportation, water management and healthcare. However, stringent protections are needed to harden security around the networks transmitting this kind of information in an effort to mitigate the dangers of hacking and allow this technology to continuously be improved. Whether you believe we’re in the midst of a digital transformation or have already completed it, one thing is certain: businesses must begin thinking in these connectivity-driven terms sooner rather than later so they aren’t left behind. Leveraging smart, connected devices can catapult organisations into a new level of situational awareness, but adopting protections and remaining vigilant continues to be a stalwart of technological innovation within the physical security market and into the connected world.
Artificial intelligence (AI) is improving everyday solutions, driving efficiency in ways we never imagined possible. From self-driving cars to intelligent analytics, the far-reaching impacts of Deep Learning-based technology empower human operators to achieve results more effectively while investing fewer resources and less time. By introducing AI, solutions are not merely powered by data, but they also generate valuable intelligence. Systems which were once leveraged for a narrow, dedicated purpose, can suddenly be engaged broadly across an organisation, because the previously under-utilised data can be harnessed for enhancing productivity and performance. Video analytics software The video intelligence software processes and analyses video to detect all the people and objects that appear When it comes to physical security, for instance, video surveillance is a standard solution. Yet, by introducing AI-driven video analytics software, video data can be leveraged as intelligence in previously inaccessible ways. Here are some examples of how diverse organisations are using AI-based video intelligence solutions to enhance security and performance with searchable, actionable and quantifiable insights. Law enforcement relies on video surveillance infrastructure for extracting investigation evidence and monitoring people and spaces. Instead of manual video review and live surveillance – which is prone to human error and distraction – police can harness video content analysis to accelerate video investigations, enhance situational awareness, streamline real-time response, identify suspicious individuals and recognise patterns and anomalies in video. The video intelligence software processes and analyses video to detect all the people and objects that appear; identify, extract and classify them; and then index them as metadata that can be searched and referenced. Maintaining public safety For law enforcement, the ability to dynamically search video based on granular criteria is critical for filtering out irrelevant details and pinpointing objects of interest, such as suspicious persons or vehicles. Beyond accelerating video evidence review and extraction, police can leverage video analysis to configure sophisticated real-time alerts when people, vehicles or behaviours of interest are detected in video. Instead of actively monitoring video feeds, law enforcement can assess triggered alerts and decide how to respond. In this way, officers can also react faster to emergencies, threats and suspicious activity as it develops. Video analysis empowers cities to harness their video surveillance data as operational intelligence Empowering law enforcement to maintain public safety is important beyond the benefit of increasing security: A city with a reputation for effective, reliable law enforcement and enhanced safety is more likely to attract residents, visitors and new businesses, exponentially driving its economic development. Furthermore, in cities where law enforcement can work productively and quickly, time and human resources can be reallocated to fostering growth and building community. Video surveillance data Video analysis empowers cities to harness their video surveillance data as operational intelligence for optimising city management and infrastructure. When video data is aggregated over time, it can be visualised into dashboards, heatmaps and reports, so operators can identify patterns and more seamlessly detect anomalous behaviour. A city could, for instance, analyse the most accident-prone local intersection and assess the traffic patterns to reveal details such as where cars are dwelling and pedestrians are walking; the directional flows of traffic; and the demographic segmentations of the objects detected: Are cars lingering in no-parking zones? Are pedestrians using designated crosswalks – is there a more logical location for the crosswalk or traffic light? Do vehicles tend to make illegal turns – should police proactively deter this behaviour, or should the city plan new infrastructure that enables vehicles to safely perform these turns? Finally, does the rise in bike traffic warrant implementing dedicated biking lanes? With video intelligence, urban planners can answer these and other questions to facilitate local improvements and high quality of life. By leveraging the video insights about citywide traffic, public transit organisations can make data-driven decisions about scheduling and services Enhancing situational awareness Insight into traffic trends is also critical for transport companies, from public transit services to transportation hubs and airports. By leveraging the video insights about citywide traffic, public transit organisations can make data-driven decisions about scheduling and services. Analysing video surveillance around bus stops, for instance, can help these companies understand the specific hours per day people tend to dwell around bus stops. Correlating this information with transactional data for each bus line, bus schedules can be optimised based on demand for individual bus lines, shortening waiting times for the most popular routes. Similarly, the traffic visualisations and activity heatmaps derived from the video of major transit hubs, such as international airports and central stations, can be beneficial for increasing security, enhancing situational awareness, identifying causes of congestion, improving throughput and efficiency and, ultimately, solving these inefficiencies to provide a streamlined customer experience for travellers. Large education campuses Campus law enforcement can leverage video data to increase situational awareness and public safety Much like a city, large education campuses have internal transportation services, residential facilities, businesses and law enforcement, and video content analysis can support the campus in intelligently managing each of those business units, while also providing video intelligence to these individual groups. Campus law enforcement can leverage video data to increase situational awareness and public safety, driving real-time responses with the ability to make informed assessments and accelerating post-event investigations with access to easily extractable video data. When campuses are expanding or developing additional infrastructure, they can plan new crosswalks, traffic lights, roads, buildings and entrances and exits based on comprehensive video intelligence. By understanding where pedestrians and vehicles dwell, walk, cross or even violate traffic laws, the campus can inform construction projects and traffic optimisation. Countless business operations The campus can leverage video business intelligence to justify leasing pricing for different retailers across campus Finally, the campus can leverage video business intelligence to justify leasing pricing for different retailers across campus, demonstrating property values based on traffic trends that can be correlated with retailer point of sale data. Whether its empowering security, productivity or decision-making, the insights generated by AI-based technology can drive significant optimisation – especially when data is fused and cross-referenced across smart sensors and systems for even deeper intelligence. In the case of AI-backed video analytics, diverse organisations can harness video surveillance impactfully and dynamically. Whereas once video technology investments could be justified for their security value – with the introduction of AI capabilities – procurement teams can evaluate these solutions for countless business operations, because they offer broadly valuable intelligence. And video surveillance and analytics is merely one example of AI-driven solutions’ potential to disrupt business as we know it.
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