New recording management software from Hanwha Techwin America
New recording management software from Hanwha Techwin America

Samsung has launched new recording management software to facilitate the easy set up, monitoring and recording of images captured by the company's iPOLiS network camera and dome ranges. A four-channel version of Samsung's NET-i Ware recording software is available license-free with various upgrade versions on offer to allow a user to control up to 64 recording channels. The primary objective of the NET-i Ware recording software is to provide a full control, administration and set-up of cameras and domes from the company's iPOLiS range of network products, including the latest HD megapixel series, and allow images to be recorded and played back via a PC across the network. With this in mind, Samsung's design engineers have packed the NET-i Ware software with features to ensure operators are able to take full advantage of the latest IP technology. Various compression methods are therefore supported, including H.264, MPEG-4 & MJPEG. Multiple back-up video formats are also supported as are a number of audio formats, e.g. G.726, G.711, G.723 and PCM. The device registration process of the NET-i Ware software allows an operator to almost effortlessly register, modify or delete up to 64 Network devices and configure each one individually for scheduled or pre and post event recording. Other key features of the NET-i Ware software include: The NET-i Ware SNS-SF software will automatically backup/archive at a pre-determined time either every day or every week on a per camera basis to a file location of choice. The recorded data has a global auto deletion mode as well as an option to automatically overwrite the oldest video when the HDDs are full. The automatic sending of an email informing the recipient of the camera name, event type, event time and a snapshot JPEG image of what has triggered an alarm or a camera's motion detection function. An administrator can also decide if they wish to record both video and audio and if certain cameras should be hidden from an operators view. The NET-i Ware SNS-SF software empowers administrators to set-up User Groups, with each group given different levels of control, e.g. Set-up, PTZ controls covert monitoring, search facilities and back-up.

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The intrinsic role of lighting for video surveillance clarity and performance
The intrinsic role of lighting for video surveillance clarity and performance

The sound of sirens in the distance is commonplace, nowadays. Whether related to a medical emergency or everyday crimes, such as theft, property crimes, and so on, we’re all accustomed to hearing these sirens by now. It is worth noting that many incidents that police respond to take place at night. According to a recent report by the Sleep Judge, more than half of murders, manslaughter, sexual assaults, robberies, aggravated assaults and motor vehicle thefts happen long after the sun has set. To anyone looking to address the round-the-clock security challenge, deploying the most comprehensive surveillance solution is a must, and this means, looking at the instrumental role illumination plays in video capture. Limitations of traditional video surveillance For surveillance cameras relying on video analytics and artificial intelligence (AI) to deliver functionalities such as facial recognition, license plate reading and motion detection, nighttime crimes can pose something of a problem. Without adequate illumination, images from video cameras are grainy and unusable.If surveillance cameras can’t be used to prevent, detect and/or resolve crimes that occur in these areas, the entire security operation is obsolete Without proper lighting, potential criminals and moving objects essentially become indistinguishable, at night, thereby inhibiting even the most advanced security technologies. This limitation of traditional surveillance technology not only hinders immediate police response, but it also stops crime investigations dead in their tracks. Often, without video evidence that is clear and discernible, conviction in a court of law is next to impossible. A common response to this issue is to place security cameras near streetlights or well-lit areas. After all, according to NPR, street lights are effective in deterring crime,  as “there are people such as neighbors, pedestrians, or police, to actually see suspicious activity.” However, even if streetside and primary entrances are well lit, the areas that still need most to be surveilled are rear or side doorways shrouded by darkness, unlit back alleys, and so on. If surveillance cameras can’t be used to prevent, detect and resolve crimes that occur in these areas, the entire security operation is obsolete. Best-in-class security solutions must be able to see everything, day and night. A purpose-designed illumination solution Addressing this issue is easier than you might think. Much like a human eye needs some sort of light to “see,” so does video surveillance technology. Integrating external illuminators into a security solution can optimise camera performance exponentially, expanding a camera’s video capture and coverage abilities and ensuring the operation of video analytics, day and night. Opting for an external illuminator allows system integrators to select a device that matches the exact emission range of a camera’s field of view (FOV). The result is an evenly lit visual field, where captured images are clear and effective for security purposes. The two most common options available to integrators include infrared (IR) and white light illuminators. Each technology is built to optimise particular deployments, depending on their needs. Infrared versus white light IR illuminators emit IR light, which is invisible to the human eye and perfect for covert surveillance operations. When cameras need to be able to detect potential threats over long distances, IR illuminators are perfect for the job as they typically have longer emission ranges. IR illuminators are optimal for surveillance operations in license plate recognition, border patrol, safe cities, theme park, and medical sleep lab applications.Cameras deployed without proper illumination are rendered blind, especially at night If an end user needs to implement full-color video analytics for identification purposes, such as facial, object and license plate recognition, white light illuminators are undoubtedly an integrator’s best bet. IR illumination and traditional thermal security cameras, after all, are only able to provide black-and-white images, whereas object recognition software often identifies objects based on their color. White light illuminators installed alongside AI-powered surveillance cameras enable enhanced video image clarity, which, optimises video analytics performance. When customers want to physically deter suspicious activity, deploying white light illuminators is effective. A recent study out of Crime Labs New York found that businesses that deployed visible lights to deter crime “experienced crime rates that were significantly lower,” which “led to a 36 percent reduction in ‘index crimes’”. On top of all this, LED based white lights operate at low running costs and typically have long lifespans, saving end users thousands of dollars a year in energy costs without having to sacrifice surveillance optimisation. External versus built-in illumination Security customers looking to use lighting to deter crime and improve the performance of video surveillance may consider “all-in-one" solutions, as some cameras have LEDs (light emitting diodes) built into them. These LEDs typically encircle the lens and therefore shed light in whatever direction the camera is pointed. However convenient these may seem, built-in illumination can cause problems. First, LEDs built into cameras and next to other electronic components often cause heat to build up, which attracts insects that can trigger motion detection and obstruct a camera’s view. This heat buildup also shortens the LED lights lifespan. Built-in LEDs also tend to create “hot spots” with glare and reflection back into the camera, often because these lights only cover a 30-degree field of view (FOV), even though the average camera’s FOV is 90 degrees. This issue can severely limit a camera’s visibility, essentially rendering those remaining 60 degrees dark and unusable. All in all, when integrating lighting solutions into your security deployment, a cost-effective solution that enhances a camera’s video capture and coverage abilities, are external illuminators because they offer flexible choices of field of view and distances. Best-in-class security solution When it comes to criminal conviction in a court of law, “seeing really is believing.” Cameras deployed without proper illumination are rendered blind, especially at night, just as any security officer would be when patrolling the same unlit area. To guarantee end users the most reliable and highest performing security solution, consider integrating best-in-class illumination into your offerings.

Safety in smart cities: How video surveillance keeps security front and centre
Safety in smart cities: How video surveillance keeps security front and centre

Urban populations are expanding rapidly around the globe, with an expected growth of 1.56 billion by 2040. As the number of people living and working in cities continues to grow, the ability to keep everyone safe is an increasing challenge. However, technology companies are developing products and solutions with these futuristic cities in mind, as the reality is closer than you may think. Solutions that can help to watch over public places and share data insights with city workers and officials are increasingly enabling smart cities to improve the experience and safety of the people who reside there. Rising scope of 5G, AI, IoT and the Cloud The main foundations that underpin smart cities are 5G, Artificial Intelligence (AI), and the Internet of Things (IoT) and the Cloud. Each is equally important, and together, these technologies enable city officials to gather and analyse more detailed insights than ever before. For public safety in particular, having IoT and cloud systems in place will be one of the biggest factors to improving the quality of life for citizens. Smart cities have come a long way in the last few decades, but to truly make a smart city safe, real-time situational awareness and cross-agency collaboration are key areas which must be developed as a priority. Innovative surveillance cameras with integrated IoT Public places need to be safe, whether that is an open park, shopping centre, or the main roads through towns Public places need to be safe, whether that is an open park, shopping centre, or the main roads through towns. From dangerous drivers to terrorist attacks, petty crime on the streets to high profile bank robberies, innovative surveillance cameras with integrated IoT and cloud technologies can go some way to helping respond quickly to, and in some cases even prevent, the most serious incidents. Many existing safety systems in cities rely on aging and in some places legacy technology, such as video surveillance cameras. Many of these also use on-premises systems rather than utilising the benefits of the cloud. Smart programming to deliver greater insights These issues, though not creating a major problem today, do make it more challenging for governments and councils to update their security. Changing every camera in a city is a huge undertaking, but in turn, doing so would enable all cameras to be connected to the cloud, and provide more detailed information which can be analysed by smart programming to deliver greater insights. The physical technologies that are currently present in most urban areas lack the intelligent connectivity, interoperability and integration interfaces that smart cities need. Adopting digital technologies isn’t a luxury, but a necessity. Smart surveillance systems It enables teams to gather data from multiple sources throughout the city in real-time, and be alerted to incidents as soon as they occur. Increased connectivity and collaboration ensures that all teams that need to be aware of a situation are informed instantly. For example, a smart surveillance system can identify when a road accident has occurred. It can not only alert the nearest ambulance to attend the scene, but also the local police force to dispatch officers. An advanced system that can implement road diversions could also close roads around the incident immediately and divert traffic to other routes, keeping everyone moving and avoiding a build-up of vehicles. This is just one example: without digital systems, analysing patterns of vehicle movements to address congestion issues could be compromised, as would the ability to build real-time crime maps and deploy data analytics which make predictive policing and more effective crowd management possible. Cloud-based technologies Cloud-based technologies provide the interoperability, scalability and automation Cloud-based technologies provide the interoperability, scalability and automation that is needed to overcome the limitations of traditional security systems. Using these, smart cities can develop a fully open systems architecture that delivers interoperation with both local and other remote open systems. The intelligence of cloud systems can not only continue to allow for greater insights as technology develops over time, but it can do so with minimal additional infrastructure investment. Smart surveillance in the real world Mexico City has a population of almost 9 million people, but if you include the whole metropolitan area, this number rises sharply to over 21 million in total, making it one of the largest cities on the planet. Seven years ago, the city first introduced its Safe City initiative, and ever since has been developing newer and smarter ways to keep its citizens safe. In particular, its cloud-based security initiative is making a huge impact. Over the past three years, Mexico City has installed 58,000 new video surveillance cameras throughout the city, in public spaces and on transport, all of which are connected to the City’s C5 (Command, Control, Computers, Communications and Citizen Contact) facility. Smart Cities operations The solution enables officers as well as the general public to upload videos via a mobile app to share information quickly, fixed, body-worn and vehicle cameras can also be integrated to provide exceptional insight into the city’s operations. The cloud-based platform can easily be upgraded to include the latest technology innovations such as licence plate reading, behavioural analysis software, video analytics and facial recognition software, which will all continue to bring down crime rates and boost response times to incidents. The right cloud approach Making the shift to cloud-based systems enables smart cities to eliminate dependence on fibre-optic connectivity and take advantage of a variety of Internet and wireless connectivity options that can significantly reduce application and communication infrastructure costs. Smart cities need to be effective in years to come, not just in the present day, or else officials have missed one of the key aspects of a truly smart city. System designers must build technology foundations now that can be easily adapted in the future to support new infrastructure as it becomes available. Open system architecture An open system architecture will also be vital for smart cities to enhance their operations For example, this could include opting for a true cloud application that can support cloud-managed local devices and automate their management. An open system architecture will also be vital for smart cities to enhance their operations and deliver additional value-add services to citizens as greater capabilities become possible in the years to come. The advances today in cloud and IoT technologies are rapid, and city officials and authorities have more options now to develop their smart cities than ever before and crucially, to use these innovations to improve public safety. New safety features Though implementing these cloud-based systems now requires investment, as new safety features are designed, there will be lower costs and challenges associated with introducing these because the basic infrastructure will already exist. Whether that’s gunshot detection or enabling the sharing of video infrastructure and data across multiple agencies in real time, smart video surveillance on cloud-based systems can bring a wealth of the new opportunities.

Securing mobile vehicles: The cloud and solving transportation industry challenges
Securing mobile vehicles: The cloud and solving transportation industry challenges

Securing Intelligent Transportation Systems (ITS) in the transportation industry is multi-faceted for a multitude of reasons. Pressures build for transit industry players to modernise their security systems, while also mitigating the vulnerabilities, risks, and growth-restrictions associated with proprietary as well as integrated solutions. There are the usual physical security obstacles when it comes to increasingly integrated solutions and retrofitting updated technologies into legacy systems. Starting with edge devices like cameras and intelligent sensors acquiring video, analytics and beyond, these edge devices are now found in almost all public transportation like buses, trains, subways, airplanes, cruise lines, and so much more. You can even find them in the world’s last manually operated cable car systems in San Francisco. The next layer to consider is the infrastructure and networks that support these edge devices and connect them to centralized monitoring stations or a VMS. Without this layer, all efforts at the edge or stations are in vain as you lose the connection between the two. And the final layer to consider when building a comprehensive transit solution is the software, recording devices, or viewing stations themselves that capture and report the video. The challenge of mobility However, the transportation industry in particular has a very unique challenge that many others do not – mobility. As other industries become more connected and integrated, they don’t usually have to consider going in and out or bouncing between networks as edge devices physically move. Obviously in the nature of transportation, this is key. Have you ever had a bad experience with your cellular, broadband or Wi-Fi at your home or office? You are not alone. The transportation industry in particular has a very unique challenge that many others do not – mobility Can you trust these same environments to record your surveillance video to the Cloud without losing any frames, non-stop 24 hours a day, 7 days a week, 365 days a year? To add to the complexity – how do you not only provide a reliable and secure solution when it’s mobile, travelling at varying speeds, and can be in/out of coverage using various wireless technologies? Waiting to upload video from a transport vehicle when it comes into port, the station, or any centralised location is a reactive approach that simply will not do any longer. Transit operations require a more proactive approach today and the ability to constantly know what is going on at any given time on their mobile vehicles, and escalate that information to headquarters, authorities, or law enforcement if needed; which can only occur with real-time monitoring. This is the ultimate question when it comes to collecting, analysing, and sharing data from mobile vehicles – how to get the video from public transportation vehicles alike to headquarters in real time! Managing video data In order to answer this question, let’s get back to basics. The management and nature of video data differs greatly from conventional (IT) data. Not only is video conducted of large frames, but there are specific and important relationships among the frames and the timing between them. This relationship can easily get lost in translation if not handled properly. This is why it’s critical to consider the proper way to transmit large frames while under unstable or variable networks. The Internet and its protocols were designed more than two decades ago and purposed for conventional data. Although the Internet itself has not changed, today’s network environments run a lot faster, expand to further ranges, and support a variety of different types of data. Because the internet is more reliable and affordable than in the past some might think it can handle anything. However, it is good for data, but not for video. This combination makes it the perfect time to convert video recording to the Cloud! Video transmission protocol One of the main issues with today’s technology is the degradation of video quality when transmitting video over the Internet. ITS are in dire need for reliable transmission of real-time video recording. To address this need a radical, yet proven, video transmission protocol has recently been introduced to the market. It uses AI technology and to adapt to different environments in order to always deliver high quality, complete video frames. This protocol, when equipped with encryption and authentication, enables video to be transmitted reliably and securely over the Internet in a cloud environment. One of the main issues with today’s technology is the degradation of video quality when transmitting video over the Internet Finally, transportation industry has a video recording Cloud solution that is designed for (massive) video that can handle networks that might be experiencing high error rate. Such a protocol will not only answer the current challenges of the transportation industry, but also make the previously risky Cloud environment safe for even the most reserved environments and entities. With revolutionary transmission protocols, the time is now to consider adopting private Cloud for your transportation operations.

Latest Hanwha Techwin Europe news

Hanwha Techwin announces its Wisenet Network Video Recorders are now supported by Seagate high-density hard disk drives
Hanwha Techwin announces its Wisenet Network Video Recorders are now supported by Seagate high-density hard disk drives

Hanwha Techwin has announced consultants, system designers and system integrators are now able to specify Wisenet Q series and Wisenet WAVE PoE NVRs supplied with Seagate hard disk drives (HDDs). High-density HDDs “Seagate’s space-efficient, high-density HDDs (hard disk drives) are able to perfectly meet the data storage demands of video surveillance systems and equally important, they have a reputation for being ultra-reliable,” said Uri Guterman, Head of Product & Marketing for Hanwha Techwin Europe. Uri Guterman adds, “Our decision to collaborate with Seagate Technology will therefore enhance the ability of these Wisenet NVRs (Network Video Recorders) to robustly fulfill the requirements of virtually any video surveillance applications, other than those, which require a server-based storage solution.”  Wisenet Q and WAVE PoE NVRs Wisenet WAVE PoE NVRs provide a cost-effective way of utilising the Wisenet WAVE VMS Wisenet WAVE PoE NVRs provide a cost-effective, seamlessly integrated and optimised way of utilising the latest version of the feature-rich Wisenet WAVE video management software (VMS), without having to install a server. Wisenet Q PoE NVRs are designed to be suitable for virtually any small to medium size video surveillance applications, which require a cost-effective, robust and reliable video recording and storage solution. Retail and corporate applications As such, they are ideal for budget limited office, retail and warehouse type applications that do not need a high number of cameras, but where users wish to have the ability to record high-definition images.

Hanwha Techwin expands Wisenet X PTZ PLUS range of cameras equipped with AI object tracking
Hanwha Techwin expands Wisenet X PTZ PLUS range of cameras equipped with AI object tracking

The six new cameras added to the Wisenet X PTZ PLUS range have been developed by Hanwha Techwin to enable users to capture evidence grade images of activity occurring in large open area applications. The ability of the new 2MP, 6MP and 4K Wisenet X PTZ PLUS cameras to operate effectively in environments such as airports, car parks, industrial estates, stadia and city centres, is enhanced by a long list of technically advanced features, which include AI-based object tracking, precise PTZ control and improved pre-set accuracy. The cameras, which have a lightweight, compact form factor, are also able to capture high-quality images of objects up to a distance of 200 metres regardless of the lighting conditions, with the help of adaptive IR technology which adjusts the angle of the camera’s IR LEDs to match the level of zoom. AI auto-tracking Operators can programme a camera to lock onto and auto-track a specific object with the help of deep learning video analytics An AI auto-tracking feature allows control room operators to efficiently monitor the movement of objects while remaining hands-free to control other cameras. With a right-click of a mouse, operators can programme a camera to lock onto and auto-track a specific object. It does so with the help of deep learning video analytics which detects and classifies people and vehicles. The video analytics is supported by AI algorithms unique to Hanwha Techwin. Alternatively, operators can take advantage of highly accurate manual control PTZ functionality to zoom in to see close up detail of target objects and track their movement. Other key features and functions Pre-set Accuracy: During their life cycle, most PTZ cameras are likely to be expected to ‘pan and tilt’ many thousands of times and it is not unknown for positioning errors to occur. Wisenet PTZ PLUS cameras, which have a pre-set accuracy of ±0.1˚, are able to detect if they are not precisely aimed at the specified field of view and will move within one second to the correct position. Focus Save: Applied to up to 32 pre-defined areas, focus save functionality ensures that regardless of the lighting conditions, a camera is able to rapidly come into focus when it is moved to a new position. Tilt Range: The cameras’ extended tilt range of up to 110⁰ allows any objects positioned above the cameras to be seen. Wisenet7 chipset At the heart of all Wisenet X PTZ PLUS cameras is Wisenet7, Hanwha Techwin’s most powerful chipset to date, which with extreme’ Wide Dynamic Range (WDR) functionality that utilises Local Contrast Enhancement and Scene Analysis technologies, is able to facilitate the capture of ultra-clear images from scenes containing a challenging mix of bright and dark areas. Excellent low light performance is also assured thanks to the utilisation of 3D noise reduction technology which, while minimising motion blur, uses several filters to isolate and remove pixels that are causing noise, while a new noise reduction algorithm improves the edge and colour of objects. Cyber secure Wisenet7 chipset incorporates a list of technologies that significantly enhance the cyber security credentials Complying with UL CAP and Secure by Default standards, the Wisenet7 chipset also incorporates an impressive list of ground-breaking technologies that significantly enhance the cyber security credentials of the Wisenet PTZ PLUS cameras. They also benefit from a Hanwha Techwin proprietary device certificate issuing system which embeds unique certificates into Wisenet products during both the development phase and manufacturing process. This further enhances the camera’s ability to prevent hackers from tampering with its firmware. Installer friendly Compact and approximately 65% lighter than most PTZ domes, the camera-mount installed Wisenet X PTZ PLUS cameras can be quickly and easily deployed, requiring engineers during a first fix to just ‘match 3 points and twist’. This conveniently enables them to tighten screws without having to hold onto the camera. Unlike conventional PTZ cameras which require up to 5 separate cables, the Wisenet X PTZ PLUS cameras only need a single RJ45 cable to operate and this is installed with a flexible bush to ensure the camera is waterproof. The new Wisenet PTZ PLUS cameras are as follows: Wisenet XNP-9250: 4K 25x PTZ camera Wisenet XNP-9250R: 4K 25x IR PTZ camera Wisenet XNP-8250: 6MP 25x PTZ camera Wisenet XNP-8250R: 6MP 25x IR PTZ camera Wisenet XNP-6400: 2MP 40x PTZ camera Wisenet XNP-6400R: 2MP 40x IR PTZ camera Authority comments “Our comprehensive Wisenet camera line-up offers a variety of options for monitoring wide open areas. However, I would encourage consultants, system designers and system integrators to take a close look at our PTZ PLUS range when there is a need to closely monitor and automatically track moving people or vehicles,” said Uri Guterman, Head of Product & Marketing for Hanwha Techwin Europe. “Our design, development and manufacturing teams have combined their expertise to pack these cameras with a long list of practical features and innovative technology which collectively will surely meet, if not exceed, users’ expectations.”

Hanwha adds Wisenet PNM-9022V and Wisenet PNM-9322VQP to their range of multi-directional cameras
Hanwha adds Wisenet PNM-9022V and Wisenet PNM-9322VQP to their range of multi-directional cameras

Two new Wisenet cameras equipped with Hanwha Techwin’s ground-breaking Wisenet7 chipset have reinforced the company’s claim to be the manufacturer of multi-directional cameras.  The 4-channel PNM-9022V utilises alpha blending technology to stitch the overlapping images captured by its four Full HD sensors into a seamless 8.3-megapixel 209° image, thus ensuring an operator never loses sight of a person or vehicle moving across a wide area. Digital PTZ functionality Superseding the highly successful Wisenet PNM-9020V, the PNM-9022V can also be used to capture 180° images, with operators able to take advantage of digital PTZ functionality across two of the camera’s channels. With Wisenet7 SoC, Hanwha Techwin’s most powerful chipset to date, at its heart, the PNM-9022V’s 4 sensors, which come with 2.8mm fixed focal lenses, are able to capture high definition colour images when the lighting level is as low as 0.03 Lux. Wisenet7 also features Hanwha Techwin proprietary ‘extreme’ Wide Dynamic Range (WDR) technology which, performing at up to 120dB, utilises new Local Contrast Enhancement and Scene Analysis technologies to enable the camera to capture ultra-clear images from scenes containing a challenging mix of bright and dark areas. Certificate issuing system Lens Distortion Correction (LDC) technology utilised by the PNM-9022V corrects the distortion created Lens Distortion Correction (LDC) technology utilised by the PNM-9022V corrects the distortion created through the use of wide-angle lenses. This delivers images which more closely resemble what is seen through the human eye. As part of the fast-growing number of new cameras which incorporate the UL CAP certificated Wisenet7 chipset, the National Defence Authorization Act (NDAA) compliant PNM-9022V is packed with an impressive list of technologies to protect it from cyber-attacks. It also benefits from a Hanwha Techwin proprietary device certificate issuing system, which embeds unique certificates into Wisenet7 products during both the development phase and manufacturing process. This further enhances the camera’s ability to prevent hackers from tampering with its firmware. Cable connection purposes 2 Micro SD/SDHC/SDXC slots enable up to 1TB of video or data to be stored at the edge should there be disruption to the network. Video of any incidents, which potentially might have been lost on the recorder side, can therefore be retrieved from the camera when the network connection has been restored. Minimising the time needed to be spent on site, the PNM-9022V has a hinged backplate to provide easy access for cable connection purposes. Installers have to simply install the back plate, clip the camera in place and tighten two screws. Intelligent video analytics Other key features include the following: A suite of built-in Intelligent Video Analytics (IVA), which includes audio detection, defocus detection, directional detection, enter/exit, appear/disappear, motion detection, virtual line and camera tampering detection. Heatmap video analytics which provides business intelligence on customer density and buying behaviour. Support for WiseStream II complementary compression technology, as well as H.265, H.264 and MJPEG compression formats. Bandwidth efficiency is improved by up to 75% compared to current H.264 technology, when WiseStream II is combined with H.265 compression. PoE+ which negates the need to install a power supply and separate cabling for the camera. IP66, IK10 and NEMA4X rated for protection against water, dust and mechanical impact. Cost-effective solution Coinciding with the launch of the PNM-9022V, the PNM-9322VQP with 4 sensors and an integral PTZ camera, is designed to provide a highly cost-effective solution for detecting and tracking objects over wide open areas. The option of exchangeable 2 and 5-megapixel lens modules enables the camera’s sensors to work together to seamlessly capture 360° images of up to 20-megapixel resolution. In addition, the device’s PTZ camera element can be configured to zoom in and track a moving object or move to a user defined preset position when the line crossing detection function of the multi-directional camera detects activity. It is also able to ‘hand-over’ to cameras covering adjacent areas to ensure operators can continue to observe people or vehicles as they move out of its field of view. Providing audio support The NDAA compliant PNM-9322VQP supersedes the highly successful PNM-9320VQP Equipped with the Wisenet7 chipset, the NDAA compliant PNM-9322VQP supersedes the highly successful PNM-9320VQP, with the additional benefit of providing audio support. “These two new models perfectly complement our other existing 2, 3, 4 and 5-channel multi-sensor cameras which collectively enable us to offer customers an affordable multi-directional camera solution for virtually any video surveillance project,” said Uri Guterman, Head of Product & Marketing for Hanwha Techwin Europe. Providing significant savings “All of these cameras will help users achieve a high return on investment (ROI) as they can perform the role of a greater number of standard HD cameras. In doing so, they provide significant savings on camera purchasing costs and with less cable, conduit, mounting hardware and network switches required, installation costs are reduced as well. With only a single IP connection, they also only require one VMS licence.” “The value of these two new cameras being NDAA compliant and UL CAP certificated should also not be underestimated. System integrators will quite often find that both can be a key requirement when they are submitting tenders for projects involving end-users which operate multi-nationally.”

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