Surveillance Camera Lighting(645)
The FUJINON SX800 camera system marks FUJIFILM's successful entry into the surveillance systems market. FUJIFILM presents the new long-range camera module FUJINON SX800 to the surveillance systems market. With a full HD camera and an optically stabilized, 40x zoom lens from FUJINON, two high-performance components are integrated into one system. This innovation is the result of years of experience in digital cameras and a dedication to the highest optical quality. Thanks to its powerful 1/1.8" image sensor, the long focal length range of 20 mm to 800 mm and state-of-the-art image processing technology, the FUJINON SX800 is ideally suited for aerial surveillance. In modern society, the security needs of citizens are constantly increasing. Surveillance cameras with long focal lengths are not only used to address sensitive issues such as border security but are increasingly being incorporated into public infrastructure such as airports, seaports and motorways. Long range surveillance systems must cope with special challenges. For optics with long focal lengths, the smallest vibrations are sufficient to compromise the image information. Heat haze or fog in the air also impair image quality. And, a focus drive that is too slow leads to safety-relevant information loss. However, with the development of the new FUJINON SX800, FUJIFILM has found a way to minimize the impact of these challenges. Instead of developing a surveillance camera and a separate matching lens, the concept of a fully integrated system consisting of camera and lens has been realized. In addition to the high-quality zoom optics, the FUJINON SX800 has a powerful combined optical and electronic image stabilization mechanism that provides angle correction of up to ±0.22 degrees. The integrated high-speed autofocus provides a sharply focused image in less than a second, while a fog filter and heat haze reduction technology helps prevent weather interference. The system provides consistently sharp images – even of objects several kilometers away. In addition, the integrated design of the new FUJINON SX800 reduces the high adjustment effort normally required for camera installation. As of Q3 2019, the FUJINON SX800 will be available as both a mobile stand-alone device and as a system that can be integrated into a pan-tilt head.
System OverviewExperience 4MP full HD color video and the simplicity of reusing existing coaxial infrastructure with HDCVI. The full-color starlight HDCVI camera presents a high quality color image with rich details even in total darkness conditions. It offers various fixed lens models with a multi-language OSD and HD/SD switchable output. It adopts two powerful warm white LED illuminators, covering an effective range up to 40 m (131.23 ft). The LEDs switch on automatically in darkness to capture detail-packed fullcolor images 24/7, ensuring anthentic identificaiton of objects. It is an ideal choice for applications such as schools, retail centers and parking lots. Functions Full-color StarlightThe camera adopts F1.2 large aperture lens and 1/2.7" high performance sensor. With higher amount of absorbed light and advanced image processing algorithm, the camera presents an impressive lowlight performance with an exceptional balance between noise reduction and the blur of moving object. Warm Supplemental lightsWith two warm supplemental LED lights, the camera is able to provide a colorful and vivid image even in total dark. By default, the camera is set to smart light mode, in which the camera can automatically adjust the exposure time and light sensitivity simultaneously to avoid overexposureing of the objects in the image center. Also, the sensitivity and intensity of the LED lights can be remotely controlled by OSD menu. Broadcast-quality Audio*Audio information is used as supplementary evidence in video surveillance applications. The HDCVI camera supports audio signal transmission over coaxial cable. In addition, it adopts unique audio processing and transmission technology that best restores source audio and eliminates noise, guaranteeing the quality and effectiveness of collected audio information. 4 Signals over 1 Coaxial CableHDCVI technology supports 4 signals to be transmitted over 1 coaxial cable simultaneously, i.e. video, audio*, data and power. Dual-way data transmission allows the HDCVI camera to interact with the HCVR, such as sending control signal or triggering alarm.*Audio input is available for some models of HDCVI cameras. Long Distance TransmissionHDCVI technology guarantees long-distance and real-time transmission without any loss. It supports up to 700 m for 4MP HD video via coaxial cable, and up to 300 m via UTP cable.**Actual results verified by real-scene testing in Dahua's test laboratory. SimplicityHDCVI technology inherits the born feature of simplicity from traditional analog surveillance system, making itself a best choice for investment protection. HDCVI system can seamlessly upgrade the traditional analog system without replacing existing coaxial cabling. The plug and play approach enables full HD video surveillance without the hassle of configuring a network. Multiple-formatsThe camera supports multiple video formats including HDCVI, CVBS and other two common HD analog formats in the market. The four formats can be switched over through OSD menu or by PFM820(UTC controller). This feature makes the camera to be compatible with most end users’ existing HD/SD DVRs. ProtectionThe camera's outstanding reliability is unsurpassed due to its rugged design. The camera is protected against water and dust with IP67 ranking, making it suitable for indoor or outdoor environments. With working temperature range of -40 °C to +60 °C (-40 °F to +140 °F), the camera is designed for extreme temperature environments. Supporting ±30% input voltage tolerance, this camera suits even the mostunstable power supply conditions. Its 4KV lightning rating provides protection against the camera and its structure from the effects of lightning.
VIVOTEK FD9187-HT is indoor dome network camera equipped with a full HD sensor enabling resolution of 2560 x 1944 at 30 fps. And FD9187-HT also supports standard 1920x1080 resolution at 60 frames per second. Featuring VIVOTEK SNV and WDR Pro technology, FD9187-HT is capable of capturing high quality image whether in high contrast or low light environment. The FD9187-HT offers remote focus lens for different user scenario. IR illuminators are equipped with 50 meter effective range for better night visibility. For indoor applications, PIR sensor is built-in to detect unexpected events. Employing VIVOTEK's Smart Stream III technology and H.265 codec support, the FD9187-HT reduces bandwidth up to 90%* while keeping great image quality. Additionally, powered by VIVOTEK Smart Motion Detection technology, the FE9187-HT can learn how to differentiate between the motion of people and objects, which make it enable to reduce the false alarms and have higher accuracy.
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
The ConteraCMR® NVR Appliance is designed to offer powerful IP recording in an affordable, compact chassis. It is equipped with an on-board 8 or 16 channel PoE switch, with a recording capacity of up to 24 channels, allowing for Plug and Play connection with Arecont Vision and ONVIF cameras or RTSP video streams. With full integration to ConteraWS® (Web Services), the NVR Appliance offers centralized 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 ConteraWS and eliminates the need for port forwarding or DDNS. The ConteraCMR NVR Appliance runs on a secure Linux® OS and comes preloaded with ConteraVMS® Server software as a turn-key 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
The Evolution 180 Outdoor Camera is built upon Oncam’s expertise and heritage on 360-degree technology. It is specifically designed for applications that require a dewarped panoramic view of an outdoor scene, without blind spots, from a single sensor camera. The 12MP high-resolution sensor and the built-in 3D dewarped panoramic video provides industry leading Panoramic+ views. The true day/night functionality allows images to be produced in all lighting conditions, including additional IR lighting. The camera is IP66, IP67, IP68, IP69K and IK10+ rated, making it a robust design. Its versatile enclosure enables wall and pendant mounting, while the integrated adjustable mounting allows for an angling of up to 45°. When angled, Oncam’s Angle Compensation Technology (ACT) corrects the view, straightening vertical lines in the scene.
System OverviewWith upgraded H.265 encoding technology, Dahua Lite series network camera has efficient video encoding capacity, which saves bandwidth and storage space. This camera adopts the latest starlight technology and displays better color image in the condition of low illumination. It supports SD card storage, dust-proof function, waterproof function and vandal-proof function, complying to the standards of IP67 and IK10 (Supported by some select models). Functions Smart CodecWith advanced scene-adaptive rate control algorithm, Dahua smart encoding technology realizes the higher encoding efficiency than H.265 and H.264, provides high-quality video, and reduces the cost of storage and transmission. WDRWith advanced Wide Dynamic Range (WDR) technology, Dahua network camera provides clear details in the environment of strong brightness contrast. The bright and dark area can get clear video even in high brightness environment or with backlight shadow. StarlightDahua Starlight technology mainly applies to the environment of low illuminance, and it can provide clear colorful video. Even in the environment of ultra-low illuminance, the technology can guarantee the good image effect. IVSWith advanced video algorithm, Dahua IVS technology supports intelligent functions, such as tripwire and intrusion. Protection (IP67, IK10, wide voltage)IP67: The camera passes a series of strict test on dust and soak. It has dust-proof function, and the enclosure can works normal after soaking in 1 m deep water for 30 minutes.IK10: The enclosure can stand the punch more than 5 times from a 5 kg hammer falling from a height of 40 cm (Impact energy is 20J).Wide voltage: The camera allows ±30% input voltage tolerance (wide voltage range), and it is widely applied to outdoor environment with instable voltage.
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.
VIVOTEK’s VAST 2 is an easy to use IP video management software (VMS). To meet the real-world needs of users, it comes with exciting advancements such as easy operation on single or multiple monitors, custom layout to accommodate both corridor and panorama orientations, rapid export of multi-channel video and the acquisition of VCA analytics & cybersecurity attack events from VIVOTEK cameras and substations (such as NVRs) in a hierarchical system structure. In the new version update of VIVOTEK’s video management software VAST 2, several advanced user-centered functionalities will be unveiled. The new features include the Deep-Learning Technology Smart Search II, Cybersecurity Management Solution, and License Plate Recognition Integration. With this update, users can enjoy the intuitive interface of VAST 2 while achieving a higher level of management efficiency. Three new user-oriented benefits will be highlighted in VAST 2： Smart Search II Building on Deep-Learning Video Content Analytics, the Smart Search II of VAST 2 allows users to quickly search for specific objects and people in the specified region. While enabling People Detection feature, only people-based activities will serve as event triggers. The security operator no longer needs to search through extensive footage for critical videos, thus improving both efficiency and effectiveness. Cybersecurity Management Solution Offering the complete end-to-end cybersecurity protection, the new VAST 2 is fully integrated with VIVOTEK cameras and NVRs and becomes a powerful cybersecurity central management site. The protection includes Instant Alert Notifications, allowing users to receive notifications automatically, and the Cyber Risk Dashboard to visually identify common types of cyber-attacks. In addition, users can filter attack logs according to a range of criteria, making it quicker to find abnormal events and take necessary actions to minimize risks. License Plate Recognition Integration Now, the new VAST 2 is fully integrated with VIVOTEK’s LPR/ Automatic Number-Plate Recognition (ANPR) camera, IB9387-LPR. Users can see the live images with selected information, such as confidence level or black list status, which can in turn become a trigger source in Alarm Management, making it easy to intelligently manage license plate data.
IDIS has extended its award-winning DirectIP® camera range with the introduction of a new flagship 2MP 36x Lightmaster IR PTZ outdoor-ready camera for fast and precise pan/tilt/zoom performance.The new DC-S6283HRX Lightmaster builds on the specification of IDIS’s successful PTZ models, with a high-grade lens combined with advanced sensor technology and finely tuned, client-side image processing, allowing the capture of vivid, true color video in extremely low light conditions. Excellent performance at long distances, with minimum motion blur, makes the DC-S6283HRX ideal for perimeters, shopping centers, stadia, outdoor spaces and public area applications.The camera benefits from IDIS’ signature true plug-and-play, one-click configuration and features 36x optical zoom, IR up to 350 metres, true wide dynamic range (WDR), digital image stabilization (DIS), a built-in heater and a vandal proof casing.“Designed for 24/7 accurate pan/tilt/zoom operation this new Lightmaster PTZ camera delivers unparalleled performance and exceptional detail when zooming. The camera is equipped with a variety of intelligent features and can move between pre-set positions and zoom in automatically in response to detected events. The result is maximum protection for a wide range of applications,” said James Min, Managing Director, IDIS Europe.The user experience is enhanced with IDIS Smart UX Controls, which is an award-winning, advanced and simple to use interface featuring intuitive slingshot and rubber-band style controls. Operators can smoothly and seamlessly follow moving objects in real-time with ground-breaking accuracy by panning images at different speeds and in different directions - literally without lifting a finger - by using a CTRL button and mouse combination.The camera uses H.264 and H.265 combined with IDIS Intelligent Codec to deliver significant bandwidth and storage savings and benefits from low Power over Ethernet (PoE) energy consumption.The risk of gaps in footage is eliminated with IDIS Smart Failover. In the event of network instability, the camera automatically records to an integral 256GB SD card and transfers data to the network video recorder (NVR) once connection is restored, which avoids the need for engineer call outs to retrieve footage.“We are listening and responding to customer demand with our new 2MP PTZ Lightmaster camera, providing an easy to deploy, low-storage and bandwidth solution for wide area coverage and perimeter detection,” said James Min, Managing Director of IDIS Europe. “It’s particularly suited to town center and city surveillance, stadia, outdoor retail parks, manufacturing and logistics sites and high-security perimeter applications where outstanding performance and ease-of-use combined with a low total cost of ownership are becoming essential.”
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.
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 visualization 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 behavior 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.”
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MOBOTIX Mx-A-IRA-120 PoE-powered High-caliber Infrared Illuminator For MOBOTIX Cameras With B&W Sensor
MOBOTIX Mx-A-IRA-15 PoE-powered high-caliber infrared illuminator for MOBOTIX cameras with B&W sensor
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MOBOTIX Mx-A-IRA-30 PoE-powered High-caliber Infrared Illuminator For MOBOTIX Cameras With B&W Sensor
MOBOTIX Mx-A-IRA-60 PoE-powered High-caliber Infrared Illuminator For MOBOTIX Cameras With B&W Sensor
MOBOTIX Mx-A-IRA-90 PoE-powered High-caliber Infrared Illuminator For MOBOTIX Cameras With B&W Sensor
Global and domestic threats have highlighted the need for tighter security across all verticals. One of the technologies that has redefined situational awareness and intrusion detection is thermal imaging. Once a technology exclusively manufactured for the military operations, thermal cameras today are deployed across hundreds of security applications and continue to see strong demand in existing and emerging commercial markets. With thermal technology, security personnel can see in complete darkness as well as in light fog, smoke and rain Technology Overview And Early Adoption What distinguishes thermal cameras from optical sensors is their ability to produce images based on infrared energy, or heat, rather than light. By measuring the heat signatures of all objects and capturing minute differences between them, thermal cameras produce clear, sharp video despite unfavorable environmental conditions. With thermal technology, security personnel can see in complete darkness as well as in light fog, smoke and rain. Originally a military developed, commercially qualified technology, the first thermal cameras for military and aircraft use appeared in the 1950s. By the 1960s, the technology had been declassified and the first thermal camera for commercial use was introduced. However, it wasn’t until the late 1990s - when FLIR Systems introduced a camera with an uncooled thermal detector - when the technology began to see substantial adoption beyond government defense deployments. Installations At Critical Infrastructure Sites In the 2000s, industrial companies were some of the first adopters of thermal, using the technology for predictive maintenance to monitor overheating and machine malfunctions. In the years following the September 11 terrorist attacks in 2001, there was an increase in thermal camera installations across critical infrastructure sites. Stricter security requirements drove the deployment of thermal cameras for perimeter protection, especially in the nuclear power sector. Thermal cameras produce clear video in daylight, low light or no light scenarios and their sharp images result in higher performing analytics In 2010, the U.S. Nuclear Regulatory Committee released its 73.55 policy, which states nuclear facilities must “provide continuous surveillance, observation and monitoring” as a means to enhance threat detection and deterrence efforts onsite. Because thermal cameras produce clear video in daylight, low light or no light scenarios and because their sharp images result in higher performing analytics, thermal cameras quickly became the preferred option for nuclear facilities. Likewise, following the 2013 sniper attack on PG&E Corporation’s Metcalf transmission substation, the Federal Energy Regulation Commission introduced the Critical Infrastructure Protection Standard 014 (CIP-014). The policy requires utilities to identify threats to mission critical assets and implement a security system to mitigate those risks. This statute also led to more thermal installations in the utility sector as thermal cameras’ long-range capabilities are ideal for detection of approaching targets beyond the fence line. The demand from both industrial and critical infrastructure entities, as well as other factors, helped drive volume production and price reduction for thermal, making the technology more accessible to the commercial security marketplace. Commercial Applications In recent years, the increasing affordability of thermal cameras along with the introduction of new thermal offerings has opened the door to new commercial applications for the technology. In the past, thermal cameras were designed for applications with enormous perimeters, where the camera needed to detect a human from 700 meters away. Locations like car dealerships, marinas and construction supply facilities can be protected by precise target detection, thermal analytic cameras providing an early warning to security personnel Today, there are thermal cameras specifically designed for short- to mid-range applications. Developed for small to medium enterprises, these thermal cameras ensure property size and security funds are no longer barriers to adoption. Lumber yards, recreation fields and sports arenas are some of the commercial applications now able to implement thermal cameras for 24-hour monitoring and intrusion detection. Affordable thermal cameras with onboard analytics have become attractive options for commercial businesses Innovation And Advancements Innovation and advancements in the core technology have also spurred growth in thermal camera deployment, providing faster image processing, higher resolution, greater video analytic capabilities and better camera performance. In particular, affordable thermal cameras with onboard analytics have become attractive options for commercial businesses that need outdoor, wide area protection. Car dealerships, marinas and construction supply locations all store valuable merchandise and materials outside. Without protection, these assets are vulnerable to vandalism and theft. However, by providing precise target detection, thermal analytic cameras provide an early warning to security personnel so that they can intervene before a crime is committed. By helping to deter just one incident, the thermal solution delivers a clear ROI. New Market Opportunities Not only are there more thermal cameras in use today than ever before, but there are also more thermal sensors being integrated with other multi-sensor systems, driving the adoption of thermal in new markets. For large perimeter surveillance applications, thermal is repeatedly being integrated with radar and drones to expand situational awareness beyond the point of fixed cameras. Users get immediate, accurate alerts of approaching targets and evidentiary class video for target assessment In the commercial market, thermal imagers are combined with optical sensors, analytics and LED illuminators into one solution that integrates with central monitoring station platforms. By bringing these technologies together, users get immediate, accurate alerts of approaching targets and evidentiary class video for target assessment. The result is a lower number of false positives, reducing the total cost of ownership for the solution. These multi-sensor solutions also feature two-way audio capabilities, which enable remote security officers to act as “virtual guards” and speak to intruders in real-time to dissuade them from illegal activity. The introduction of solutions that integrate all these state-of-the-art technologies under one unit reduces the amount of capital and infrastructure needed for deployment. Consequently, more small businesses and alarm monitoring companies can implement advanced perimeter security technologies like thermal sensors, some for the very first time. Thermal cameras have gone from military defense devices to widespread commercial security cameras Multi-Sensor Thermal Solutions Multi-sensor solutions featuring thermal are quickly gaining traction and opening the door to new business opportunities for the security channel. One of the primary reasons for the strong market interest in these systems is they enable integrators to increase their recurring monthly revenue (RMR). With intense price competition and eroding margins on CCTV equipment, integrators have to rely on RMR to grow their businesses. Offering remote video monitoring services and virtual guarding technologies is one of the best ways to do so. Additionally, there is a clear demand for it. Central stations are continually looking for new technologies to offer their customers and businesses are interested in economical alternatives to physical guards. In conclusion, thermal cameras have gone from military defense devices to widespread commercial security cameras that are a substantial segment of the outdoor security protection market. From nuclear power plants to construction locations, thermal technology is being implemented to secure sites around the globe.
Johnson Controls recently unveiled the findings of its 2018 Energy Efficiency Indicator (EEI) survey that examined the current and planned investments and key drivers to improve energy efficiency and building systems integration in facilities. Systems integration was identified as one of the top technologies expected to have the biggest impact on the implementation in smart buildings over the next five years, with respondents planning to invest in security, fire and life-safety integrations more so than any other systems integration in the next year. As advanced, connected technologies drive the evolution of smart buildings, security and safety technologies are at the center of more intelligent strategies as they attribute to overall building operations and efficiencies. SecurityInformed.com spoke with Johnson Controls, Building Solutions, North America, VP of Marketing, Hank Monaco, and Senior National Director of Municipal Infrastructure and Smart Cities, Lisa Brown, about the results of the study, smart technology investments and the benefits of a holistic building strategy that integrates security and fire and life-safety systems with core building systems. Q: What is the most striking result from the survey, and what does it mean in the context of a building’s safety and security systems? The results show an increased understanding about the value of integrating safety and security systems with other building systems Hank Monaco: Investment in building system integration increased 23 percent in 2019 compared to 2018, the largest increase of any measure in the survey. When respondents were asked more specifically what systems they we planning to invest in over the next year, fire and life safety integration (61%) and security system integration (58%) were the top two priorities for organizations. The results show an increased understanding about the value of integrating safety and security systems with other building systems to improve overall operations and bolster capabilities beyond the intended function of an individual system. Q: The survey covers integration of fire, life safety and security systems as part of "smart building" systems. How do smarter buildings increase the effectiveness of security and life safety systems? Hank Monaco: A true “smart building” integrates all building systems – security, fire and life-safety, HVAC, lighting etc. – to create a connected, digital infrastructure that enables individual technologies to be more intelligent and perform more advanced functions beyond what they can do on their own. For example, when sensors and video surveillance are integrated with lighting systems, if abnormal activity is detected on the building premise, key stakeholders can be automatically alerted to increase emergency response time. With integrated video surveillance, they also gain the ability to access surveillance footage remotely to assess the situation. When sensors and video surveillance are integrated with lighting systems abnormal activity on the premise can automatically be detected Q: How can integrated security and life safety systems contribute to greater energy efficiency in a smart building environment? Hank Monaco: Security, fire and life-safety systems can help to inform other building systems about how a facility is used, high-trafficked areas and the flow of occupants within a building. Integrated building solutions produce a myriad of data that can be leveraged to increase operational efficiencies. From an energy efficiency standpoint, actionable insights are particularly useful for areas that are not frequently occupied or off-peak hours as you wouldn’t want to heat or cool an entire building for just one person coming in on the weekend. When video surveillance is integrated with HVAC and lighting systems, it can monitor occupancy in a room or hallway. The video analytics can then control the dimming of lights and the temperature depending on occupant levels in a specific vicinity. Similarly, when access control systems are integrated with these same systems, once a card is presented to the reader, it can signal the lights or HVAC system to turn on. In this example, systems integration can ultimately help enable energy savings in the long run. Security and life safety systems contribute to help enable greater energy efficiency and energy savings in the long run Q: What other benefits of integration are there (beyond the core security and life safety functions)? Hank Monaco: Beyond increased security, fire and life-safety functions, the benefits of systems integration include: Increased data and analytics to garner a holistic, streamlined understanding of how systems function and how to improve productivity Ability to track usage to increase efficiency and reduce operational costs Enhanced occupant experience and comfort Increased productivity and workflow to support business objectives Smart-ready, connected environment that can support future technology advancements Q: What lesson or action point should a building owner/operator take from the survey? How can the owner of an existing building leverage the benefits of the smart building environment incrementally and absent a complete overhaul? Lisa Brown: Johnson Controls Energy Efficiency Indicator found that 77% of organizations plan to make investments in energy efficiency and smarter building technology this year. This percentage demonstrates an increased understanding of the benefits of smart buildings and highlights the proactive efforts building owners are taking to adopt advanced technologies. There is an increased understanding that buildings operate more effectively when different building systems are connected As smart buildings continue to evolve, more facilities are beginning to explore opportunities to advance their own spaces. A complete overhaul of legacy systems is not necessary as small investments today can help position a facility to more easily adopt technologies at scale in the future. As a first step, it’s important for building owners to conduct an assessment and establish a strategy that defines a comprehensive set of requirements and prioritizes use-cases and implementations. From there, incremental investments and updates can be made over a realistic timeline. Q: What is the ROI of smart buildings? Lisa Brown: As demonstrated by our survey, there is an increased understanding that buildings operate more effectively when different building systems are connected. The advanced analytics and more streamlined data that is gathered through systems integration can provide the building-performance metrics to help better understand the return on investment (ROI) of the building systems. This data is used to better understand the environment and make assessments and improvements overtime to increase efficiencies. Moreover, analytics and data provide valuable insights into where action is needed and what type of return can be expected from key investments.
Remember the old adage “The whole is greater than the sum of its parts?” Nowhere is that truism more evident than when you add network video to the current generation of Internet of Things (IoT) solutions. Whether we’re talking about industrial IoT applications, “Smart – X” (city, building, parking etc.) or retail operations, integrating network video into the solution provides value far beyond simple situational awareness. Optimising Sophisticated Video Technology When video systems first moved from analog to digital and then became part of the IoT world, they were primarily used to provide visual validation of sensor-detected events. For instance, if an industrial controller sensed an environmental issue such as a temperature exceeding set threshold maximum limits, the sensor would trigger the management software to notify the operator that this event had occurred. The operator could then pull up the video feed of the closest camera and observe the area remotely. While this application is simple, it shows how video enhances sensor management. As edge devices, such as sensors and network video become more intelligent, the interactions between systems are growing in sophistication and generating even greater value than each system could provide on its own. To appreciate how these smart applications are being used to improve overall efficiencies and profitability, let’s delve into three areas where they’re being deployed: intelligent buildings, smart cities, and smart retailing. By overlaying intelligent operational sensors with intelligent video, it’s now possible to automate lighting levels based on motion detection Video-based Operational Analytics Applying intelligent monitoring to environmental equipment (HVAC) makes it easy for building owners and property managers to determine existing operating costs based on current equipment performance. They can then compare that amount to the cost of upgrades and potential cost savings over time. Lighting is another significant operating cost within building management. By overlaying intelligent operational sensors with intelligent video (light sensors), it’s now possible to automate lighting levels based on motion detection. Lights can automatically turn on or off, brighten or dimmed, to eliminate wasteful energy consumption. With the addition of occupancy analytics via intelligent video, property managers can determine what caused the motion and learn other operational details such as occupancy counts. Did someone walk through and area causing lighting to turn on or up? Did they dwell in this area? These specifics can help managers efficiently optimize lighting controls and reduce the overall operating cost of the property. Businesses are also using smart applications to optimize allocation of desk space and conference areas. For instance, intelligent video can determine conference room occupancy (in use, number of people in room, free space even though showing booked) far better than stand-alone motion sensors. When tied to automated room assignment systems, the additional statistics provided by video analytics might suggest room changes based on room size and number of attendees through back-office applications such as Microsoft Outlook. These examples are just a few of a growing list of available video-based operational analytics currently on the market. Video Analytics In Smart Cities Initial forays into smart city technologies such as smart lighting, smart grid, smart parking and so on relied on standalone sensor technologies. Their capabilities were good but limited. Smart Lighting for instance would use basic light detectors to turn street lighting. Smart Parking and traffic systems would use weight sensors to trigger vehicle counts, traffic signal changes or determine if a parking space was in use and paid for. Augmenting these applications with intelligent video and analytics, however, opens up a whole new world of additional details. In Smart Lighting, the video sensor can now trigger a change in lighting based on rules such as vehicular and pedestrian events. Video analytics can yield additional metadata such as vehicle type (commercial versus public use). Smart Parking becomes much more effective when you can begin to provide vehicle detail such as vehicle type or other information based on license plate recognition. These additional details can help parking lots operate more efficiently and offer value-added services like space reservation and open space location notifications. Augmenting smart city applications with intelligent video and analytics opens up a whole new world of additional details Smart Grid offers some less obvious but equally valuable system augmentation capabilities. We often associate Smart Grid with simple automated meter reading but these systems also traverse critical power infrastructure. Solution providers in this arena are now offering heightened asset and perimeter protection via integration of network-based radar detection with video and audio analytics. This strategic mix of technologies can be used to minimize false detection alarms, turn on/off or change lighting levels and point cameras to areas of interest for extremely effective and cost-effective perimeter security. Network video For Retail Intelligence Retailing was one of the earliest adopters of smart device integration with network video and video analytics to support loss prevention and customer safety. They’ve been using video to analyze customer traffic and behavior in order to improve product placement, increase product sales, as well as cross-sell related items. Adding programmable “Digital Signage” to the mix created new opportunities to display targeted messages based on viewer demographics about additional products and services of potential interest. Integrating network video with point-of-sale terminals to reconcile cash register receipts, adding heat mapping analytics to study customer foot traffic patterns, measuring check out wait times to increase employee productivity and efficiency as well as improve the customer experience are just some of the ways retailers have applied the principles of IoT to their advantage. Overlay intelligent building controls and you can see the exponential power of integrating intelligent video with other IoT devices and systems. Retailing was one of the earliest adopters of smart device integration with network video and video analytics to support loss prevention and customer safety Minimizing Metadata Overload Smart application integration produces an enormous amount of metadata. Collecting, transporting and synthesising this data into meaningful business intelligence can be daunting. It requires disciplined use of resources from the network infrastructure transporting the data locally to the various cloud technologies (private cloud, hybrid cloud, public cloud) storing and disseminating it securely. Generally smart sensor data is fairly light weight in terms of actual data transmitted. Adding video elements can significantly increase bit-rate (bandwidth and storage) requirements. This highlights the need for the video to be more intelligent and interactive with the intelligent sensor and edge device technologies so that resources can be used more efficiently. Smart applications let you do that. You can fine tune video rules and optimize transmission based on retention value. You can program the video to sensor triggers or events, transmitting lower frame rate and resolution video for less interesting video and increasing the video settings when higher quality video is more relevant and valuable based on these sensor triggers. The back-end collectors of sensor metadata are becoming more mainstream and easier to operate. In many sectors, service providers are offering management of this sensor output “As a Service.” As smart IoT technology continues to mature, the benefits of integration between network video systems and other network solutions will only get better. We’re already seeing greater efficiency in operations as well as higher quantifiable returns on investment through cost savings and more in-depth, usable business intelligence.
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