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In the state of the residential security market today, we see many who are offering home security packages that rely on numerous sensors and multiple devices to provide a comprehensive coverage of the home and provide peace of mind. Each individual sensor or device within the package provides a specific functionality, and the user finds himself burdened by an overwhelming amount of sensors and devices. This overload is intensified by the penetration of additional IoT and smart devices into the home, such as pet-cams or smart speakers that add to the burden of installation and maintenance. In addition, we are witnessing the rise in popularity of DIY security devices, indicating that users are looking for models and technologies that provide both contract flexibility and simplicity of use. The past years have seen major advancements in radar technology, which have brought the formerly military technology into the consumer space. Radars provide interesting prospects for home security and smart homes due to several inherent characteristics which give it an advantage over existing technologies. The resolution of an advanced radar sensor enables not only presence detection, but also provides advanced features for security, automation and well-being Advanced Security And Automation Features Of primary importance, a consumer designed radar sensor provides the user with full privacy, but the use of radar is also beneficial because it is indifferent to environmental, temperature and lighting conditions. In addition, radar signals (at certain frequencies) are capable of penetrating through almost any type of material, enabling concealed installation, robust monitoring in cluttered spaces and even the coverage of several separate rooms with only one device. In terms of capabilities, simple time of flight 2-antenna radar sensors, which have been around for a while, do not provide much additional value in comparison to existing solutions and are not necessarily competitive in terms of pricing. However, the new generation of radar sensors are also opening up new capabilities previously achieved with optics only. Today, the resolution of an advanced radar sensor is high enough to enable not only presence detection, but also to provide advanced features for security, automation and well-being, all in one. Imagine for example, that the security sensor installed in your elderly parent’s home could also detect a fall having occurred, monitor the breathing of a baby or even leaks in your wall. Due to the unique field of view that radar provides as well as the multi-functional potential, this technology will be the key to the awaited convergence of smart home functionalities and minimization of home devices. The security sensor installed in your elderly parent’s home could also detect a fall having occurred Secret Of The Consumer Radar A radar sensor’s accuracy and its ability to support wide functionality and applications is determined initially by its resolution, which is based on two key factors: bandwidth and number of channels. The wider the bandwidth and the more channels the radar supports, the more accurate the data received. Imagine the difference between a 1990s television model and a 4K 2018 television model - As the resolution is ever improving, the sharper and more detailed is the image. When looking at the short-range radar sensor market, prominent companies such as Texas Instruments and NXP are offering radar-on-chip solutions supporting 2\3 transmitters (Tx) and 3\4 receivers (Rx), mainly utilizing frequency bands of 77-81GHz, as they target mostly automotive and autonomous driving applications. Another company that develops such radar-on-chip solution is Vayyar Imaging, an Israeli start-up, founded in 2011, that developed a radar sensor for 3D imaging. Vayyar Imaging directly targets the smart home and security markets with its radar-on-chip, developing modules and products for intruder detection, automation and elderly care (fall detection). Providing not only chips, but complete systems, the new model makes radar technology highly available and accessible. The radar-on-chip technology opens the door to installation of security and well-being devices in locations where privacy or environmental conditions pose an issue Radar-On-Chip Solution The radar-on-chip solution supports 72 full transceivers, an integrated DSP and radar bands between 3-81GHz. The resolution provided by this type of specification is high enough to provide subtle information about people’s real time location posture (lying down\falling\sitting\walking), and breathing, and enables to classify pets from humans, but it is low enough as to not compromise privacy. This type of technology opens the door to installation of security and well-being devices in locations where privacy or environmental conditions pose an issue, such as in bathrooms or heavily lit environments. Moreover, utilization of this technology allows to dramatically minimise the numbers of sensors installed in the home, as it provides full home coverage with just one or two sensors and enables using the same HW to support additional capabilities such as breath monitoring, fall detection and highly accurate automation. Using AI and machine learning, the data derived by these sensors can be leveraged to provide smarter, verified alerts on the one hand and whole new insights on the on the other. The sensor can be tuned to learn the location of the house entrances or boundaries, where the inhabitants are expected to be at night, or where they should be expected to enter from into the home, adding new logics to the traditional yes\no decision making. Home security is widely regarded as a necessity, provides peace of mind to people and is integral to people's day to day lives Additional Smart Home Services Among the evolving home technology verticals, security is by far the most relevant and integral to people’s day to day lives. Home security is widely regarded as a necessity and provides peace of mind to people. Being a legacy industry with many well-known and well-trusted brands, security players are well positioned to introduce new technology into the home and have the ability and credibility to expand their offerings to additional smart home services by utilizing existing infrastructure and channels. With technology giants entering the security arena through the smart home door the DIY security solution market expected to explode with a CAGR of 22.4% (according to a report by Persistence Market Research). Now that new pricing and service models offer minimal commitment, traditional security players will need to step up. Security companies will need to explore new technologies and expand their offering if they intend to stay relevant and competitive in a market trending on functionality converge and minimization of maintenance and installation costs.
Everybody has been hooked on the discussions about Analog HD or IP systems, but shouldn’t we really be thinking about WiFi and 5G connectivity, removing the need for expensive cabling? Are wireless networks secure enough? What is the potential range? Even the basic question about whether or not the network is capable of transferring the huge (and growing) amount of data required for High Res Video, which will soon be quadrupled with the advent of 4K and higher resolutions. The Future Of Video Surveillance Monitors We have seen a massive uptake in 4K monitors in the security industry. While they have been relatively common in the consumer market, they are only now beginning to really take off in the CCTV market, and the advances in Analog HD and IP technology mean that 4K is no longer the limited application technology it was just a few years ago. Relatively easy and inexpensive access to huge amounts of storage space, either on physical storage servers or in the cloud, both of which have their own positives and negatives, have really helped with the adoption of 4K. Having said that the consensus seems to be, at least where displays are concerned, there is very little need for any higher resolution. So, where next for monitors in CCTV? 8K monitors are present, but are currently prohibitively expensive, and content is in short supply (although the Japanese want to broadcast the Tokyo Olympics in 8K in 2020). Do we really need 8K and higher displays in the security industry? In my own opinion, not for anything smaller than 100-150+ inches, as the pictures displayed on a 4K resolution monitor are photo realistic without pixilation on anything I’ve seen in that range of sizes. The consensus seems to be, at least where displays are concerned, there is very little need for any higher resolution Yes, users many want ultra-high resolution video recording in order to capture every minute detail, but I feel there is absolutely no practical application for anything more than 4K displays below around 120”, just as I feel there is no practical application for 4K resolution below 24”. The higher resolution camera images can be zoomed in and viewed perfectly well on FHD and 4K monitors. That means there has to be development in other areas. Developments In WiFi And 5G What we have started to see entering the market are Analog HD and IP RJ45 native input monitors. While you would be forgiven for thinking they are very similar, there are in fact some huge differences. The IP monitors are essentially like All-In-One Android based computers, capable of running various versions of popular VMS software and some with the option to save to onboard memory or external drives and memory cards. These are becoming very popular with new smaller (8-16 camera) IP installs as they basically remove the need for an NVR or dedicated storage server. Developments in the area of WiFi and 5G connectivity are showing great promise of being capable of transferring the amount of data generated meaning the next step in this market would maybe be to incorporate wireless connectivity in the IP monitor and camera setup. This brings its own issues with data security and network reliability, but for small retail or commercial systems where the data isn’t sensitive it represents a very viable option, doing away with both expensive installation of cabling and the need for an NVR. Larger systems would in all likelihood be unable to cope with the sheer amount of data required to be transmitted over the network, and the limited range of current wireless technologies would be incompatible with the scale of such installs, so hard wiring will still be the best option for these for the foreseeable future. There will be a decline in the physical display market as more development goes into Augmented and Virtual Reality Analog HD Options Analog HD options have come a long way in a quite short time, with the latest developments able to support over 4MP (2K resolution), and 4K almost here. This has meant that for older legacy installations the systems can be upgraded with newer AHD/TVI/CVI cameras and monitors while using existing cabling. The main benefit of the monitors with native AHD/TVI/CVI loopthrough connections is their ability to work as a spot monitor a long distance from the DVR/NVR. While co-axial systems seem to be gradually reducing in number there will still be older systems in place that want to take advantage of the benefits of co-axial technology, including network security and transmission range. Analog technologies will eventually become obsolete, but there is still much to recommend them for the next few years. Analogue technologies will eventually become obsolete, but there is still much to recommend them for the next few years Another more niche development is the D2IP monitor, which instead of having IP input has HDMI input and IP output, sending all activity on the screen to the NVR. This is mainly a defense against corporate espionage, fraud and other sensitive actions. While this has limited application those who do need it find it a very useful technology, but it’s very unlikely to become mainstream in the near future. Augmented Reality And Virtual Reality Does the monitor industry as a whole have a future? In the longer term (decades rather than years) there will definitely be a decline in the physical display market as more and more development goes into AR (Augmented Reality or Mixed Reality depending on who’s definition you want to take) and VR (Virtual Reality). Currently AR is limited to devices such as smartphones (think Pokémon Go) and eyewear, such as the ill-fated Google Glass, but in the future, I think we’ll all have optical implants (who doesn’t want to be The Terminator or RoboCop?), allowing us to see whatever we decide we want to as an overlay on the world around us, like a high-tech HUD (Heads Up Display). VR on the other hand is fully immersive, and for playback or monitoring of camera feeds would provide a great solution, but lacks the ability to be truly useful in the outside world the way that AR could be. Something not directly related to the monitor industry, but which has a huge effect on the entire security industry is also the one thing I feel a lot of us have been oblivious to is the introduction of quantum computers, which we really need to get our heads around in the medium to long term. Most current encryption technology will be rendered useless overnight when quantum computers become more widespread. So, where does that leave us? Who will be the most vulnerable? What can we do now to mitigate the potential upheaval? All I can say for sure is that smarter people than me need to be working on that, alongside the development of the quantum computer itself. Newer methods of encryption are going to be needed to deal with the massive jump in processing power that comes with quantum. I’m not saying it will happen this year, but it is definitely on the way and something to be planned for.
The advent of IP security cameras has resulted in the need to maintain existing coax cable for networking applications Transmission of video and PoE power for IP security cameras over infrastructures can be confusing. Network infrastructures are designed using twisted pair cabling that we refer to as CAT (short for Category) cable, also referred to as UTP (Unshielded Twisted Pair). Security systems, coming from an analog environment, have historically transmitted over coax cable, and with the use adaptors can transmit over CAT cabling, which can be further broken down into single pair twist and untwisted applications. Cabling shares one, often misunderstood commonality. Any physical medium has a form of resistance to any element carried on that cable. With regard to network transmission over CAT 5 and greater (5e, 6, 7), there is a distance limitation of 328 feet or 100 meters. The applicable standards state that the bandwidth applied at one end of the cable at 10/100/1000 (1G)Mbps will be realized at the other end. This is also where we find the first limitation. At this same 328-foot distance there is a loss of PoE power. 802.3af or 15.4 watts is a value realized only at the PoE source. Under the standard, after traveling through 328 feet, the power at the camera is 12.95 watts. The same is true for 802.3at which has a source power of 30 watts and 328-foot distance power of 25 watts. The advent of IP security cameras has resulted in the need to maintain existing coax cable for networking applications. The first thing to realize is there are no standards for network transmission over coax. In reality the characteristics governing coax can be considered the opposite of CAT twisted pair cable. CAT cabling for network transmission consists of 4 wire pair, 2 of which are used for signal and PoE transmission. This ability to separate PoE and bandwidth transmitting over two pairs maximises power transmission. Coax cable, when used in the same application, is limited to a single pair – center conductor and shield. Its characteristics promote bandwidth but limit PoE transmission compared to UTP cable. I emphasize again, there are no standards for coax cable transmission. This process becomes more confusing when you realize there are various type of cables that are called either UTP or Coax. All of these cable have different characteristics that have a direct impact on their ability to transmit bandwidth and PoE. The standards for UTP transmission were set for CAT 5 (5e). Categories 6, 7 and above will tend to have lower cable resistance and longer transmission distance; CAT 3, higher resistance and shorter distance. Common types of coax cable have varying distance limitations The same applies to coax cable. Again there is no standard, the typical cable found in analog security applications is RG-59. In general, application distance limitations ran between 750 to 1000 feet, greater than the 328 network limitation. This is why extenders are required to convert from coax to UTP and to extend the signal and power range. As with UTP cable, there are two similarities. First, there are different grades of coax; second, there are different types. All these differences generally apply to cable resistance and therefore distance performance. The most common types of coax cable are: RG 59, RG 6 and RG 11 Why is this important? In general there are two reasons. The first is in specifying equipment for a video security system, you are generally dealing with existing wiring and a fixed performance requirement. It is important to know the type and condition of the wiring in order to know what system performance requirements can be met. Second is a function of understanding specifications for the transmission equipment that will be used in the infrastructure. As noted, when maintaining coax, the use of coax-to-Ethernet convertors/extenders is required. In many cases even when UTP is used, distances over the 328-foot limit are required. A manufacturer’s product specification sheet can truthfully state their products can perform at 100 Mbps, they can handle 802.3at 30 watts and they can transmit distances up to 6,000 feet. However these must be viewed as separate performance claims. The key word is separate. Notice in these statements there is nothing that ties 100Mbps and/or 30 watts (these are examples only) and claimed distance of 6,000 feet together. Neither is the type of cable used indicated. By themselves, each individual claim is truthful; however, applications require they work together, and this is usually not the case. Many times it is difficult to read between the lines of manufacturer’s specifications. Failure to do so can cost additional time, money and even lead to removing the infrastructure itself. There is a simple answer. Call the manufacturer and have them confirm that their solution will perform as required for your specific application. If necessary, ask for proof that they have conducted testing to support their performance claims. Infrastructure is confusing, and you don’t need to be an expert, you just need to ask the right person(s) the right questions.
Vicon Industries Inc. (VCON: OTCQB Venture Market) ("Vicon"), designer and manufacturer of video surveillance and access control software, hardware and components, announced today that Louisa County Public Schools, in Northern Virginia, has completed installation of a district-wide Vicon Valerus video management solution that encompasses its six school buildings and connects nearly 400 cameras. The system includes multiple application servers and NVRs running Valerus VMS software, as well as a wide range of Vicon IP megapixel camera models. The district has opted to share camera access with the Louisa County Sheriff’s Department, whose officers can use iPads and smartphones to immediately call up video through the Valerus VMS interface in case of an emergency. This allows them to visually assess any situation and locate the perpetrator before sending in officers. Vicon Sponsored Training Class The Valerus solution was chosen by Louisa County Public Schools because of Vicon’s willingness to provide the district’s in-house electricians and technical team with as much autonomy as possible in setting up and managing the system. After participating in a Vicon sponsored training class, the district has been self-sufficient in its ability to install, program and troubleshoot Valerus. David Szalankiewicz, LCPS Facilities Director, says "Vicon’s technical team has supported our in-house guys directly with training and certification so that we feel completely in control." Ron Lapsley, Vicon’s Regional Sales Manager who worked on the project, explains, "Vicon understands that the technical capabilities and service needs are different for each customer, and we’re glad to provide the right level of support that makes sense. In many cases, the manufacturer relationship is as important as the product itself in making sure a customer is satisfied."
With increased security a priority for school districts across the country, administrators are taking a close look at their technology to ensure it can deliver in an emergency. Concerns over active shooters and other violent scenarios have districts paying attention and putting heightened security measures in place. Christopher Lordi, Director of Administrative Services at Delaware Valley School District in rural, northeast Pennsylvania, knew it was time to upgrade his district’s surveillance technology, so he turned to the integration expertise of Guyette Communications to get the job done. Analog DVR System The outdoor PTZ cameras that panned back and forth were causing them to miss a lot of activity The DVR system that covered Delaware Valley’s seven schools and nine buildings was state-of-the-art when it was installed a decade ago, but it was no longer meeting the district’s needs. Administrators complained that is was difficult to view and manage video from all of the cameras as a unified system. The analog video made it hard to identify faces and see other important details. And the outdoor PTZ cameras that panned back and forth were causing them to miss a lot of activity. “We had a lot of blind spots,” says Chris. Guyette Communications, of Plymouth, PA, has worked with the district for over a decade supporting its technology needs, so Chris looked to them for guidance. Scott Surochak and Rick Scalzo, both of Guyette, recommended a new-to-market VMS, Vicon’s Valerus, that they felt would provide all the features and performance the district sought in a very cost-effective manner. They also recommended that the district abandon their analog cameras and standardize district-wide on higher performance, megapixel IP models. Valerus VMS The significant expense of replacing not just the VMS system, but hundreds of cameras district-wide, required buy-in from the school board. Rick and Scott, along with Vicon’s regional sales manager, Doug Stadler, provided an in-depth demonstration of the capabilities of Vicon’s new Valerus VMS, along with its line of IQeye Alliance cameras, to the school board. The new system would allow them to clearly identify the faces of visitors, read license plates within the school parking lots, eliminate current blind spots throughout the campuses, and easily search video to quickly find evidence of crime or vandalism. Convinced of the long-term value of the investment, the school board gave a green light to proceed. Vicon Fixed And Cruiser Cameras Approximately 400 cameras were installed throughout the district’s nine buildings, almost all of which are Vicon 3MP IQeye Alliance fixed domes Installation began in March 2017 and continued throughout the summer. Approximately 400 cameras were installed throughout the district’s nine buildings, almost all of which are Vicon 3MP IQeye Alliance fixed domes. These provide coverage of all entrances to buildings, busy hallways, and spaces like lunchrooms, auditoriums, playgrounds, parking lots and athletic fields. In addition, Vicon Cruiser domes with 30X optical zoom were installed in each parking lot to capture license plates. To support so many high-resolution cameras transmitting at full frame rates, Guyette installed a dedicated security network capable of handling the bandwidth. All cameras are hard wired with new CAT-6 cabling, which feeds back to CISCO switches and a fiber backbone that runs through each building. Installing Security Network To minimize bandwidth transmission between buildings, Guyette recommended that each school locally record video from its respective cameras. The five lower schools have each been equipped with a single Valerus server that both runs VMS application software and performs as an NVR. The middle school and high school, which share a building, have an application server plus four NVRs to support the higher number of cameras. Because the Valerus VMS software makes exclusive use of a thin-client, there was no need to install software on any workstations. Complete user and administrative functionality is available through a standard web browser interface. Rick says that “Installation went very smoothly. The system works well and it’s easy to navigate and program. I’m used to systems where we have to do everything manually, but with Valerus, it does a lot of things for you. For example, you can copy programming to multiple cameras. Setting up one camera and then copying it to 50 others is a huge time saver.” “The system is also really easy to update,” he says. “Two new Valerus versions were released during the months we were doing the installation, and we just had to download it once each time to an application server, and then it was automatically pushed out to all the other servers on the network.” Efficient Crime DetectionTwo new Valerus versions were released during the months we were doing the installation, and we just had to download it once each time to an application server" There isn’t a lot of criminal activity in the Delaware Valley School District, thanks to outreach programs that create a collaborative relationship between the school police force, administrators, students and parents. However, sometimes issues do occur, and Valerus has already helped the district solve a theft. Chris describes an incident that occurred while the system was still being installed in the spring of 2017. “There was a theft from one of the administrative offices. The employee thought the office had been locked, but our surveillance video was able to show that it was not and displayed the comings and goings of everyone who entered the office during the time in question. The video quality was so clear that the thief’s face could be identified. The footage was turned over to the local police who were able to apprehend the thief and recover the stolen property. With our old VMS system, the video wouldn’t have provided enough detail for us to identify the culprit.” High-End Video Surveillance Chris says he’d love to say that Valerus’ “museum search” made it possible to find the incriminating video in minutes. However, because the system was just getting installed, not all features were operational yet and his police force had to manually look through hours of video. “The officers are really looking forward to being able to use the search function in the future, now that we’re all up and running. They love how you can draw a box over an area of the video where you know something has happened, and Valerus will do all the work for you,” he says. In speaking about response to crimes and emergencies, Rick adds that because Valerus uses a thin client, the school district has the luxury of easily providing outside law enforcement with access to their system. If they ever needed help from local or state police, like in an active shooter situation, administrators can provide them with a link to the district’s network so that they can better coordinate a response. This would have been impossible with their old system. Ensuring Valerus System’s Functionality The VMS thin-client interface allows the officers to view video from anywhere, including on their phones or tablets Unusual for a district of its size, Delaware Valley has its own, full-time, six-person police force. Among other responsibilities, this force is tasked with monitoring the new Valerus system. Each officer has been equipped with his or her own workstation from which they can monitor the cameras physically located at their assigned schools. Administrators at each building also have access to view local cameras. In addition, a centrally located, district-wide monitoring station has been set up to make it easy for officers and school officials to keep an eye on the district as a whole. Rick Scalzo explains that while the VMS thin-client interface allows the officers to view video from anywhere, including on their phones or tablets, his team recommended the purchase of high-performance, manufacturer-certified PC workstations for each officer’s monitoring station. This was to ensure that these computers would have the necessary processing power to display large numbers of high-resolution camera feeds simultaneously. These workstations are hard wired to the network to provide the fastest and most reliable connectivity to the application server. Chris Lordi says that the district has also provided all officers with iPhone 6s, which they use regularly to monitor what’s happening at their buildings. License Plate Recognition And PTZ Cameras One of the capabilities that the district required of the new system is the ability to read license plates of vehicles entering or exiting school grounds. Officers are able to take control of the PTZ cameras in each parking lot and zoom in on the plates of any vehicles of interest. This can even be done via the iPhone interface. Chris explains that it has not been necessary to integrate Valerus with any special license plate recognition (LPR) software because his team of police officers has immediate access to databases where they can look up plates as needed. However, this integration is currently available for Valerus customers and can help automate the process for those who need it. Intruder Detection They want top-notch safety, and Valerus delivers that" Chris says that “Our school board takes safety and security very seriously, so for them, this significant investment was justified as soon as we showed them what it can do. They want top-notch safety, and Valerus delivers that. Buy-in from teachers, and the union, who have expressed reservations over the placement of many new cameras that didn’t previously exist, has required additional communication and education. Both Chris and Rick have made it very clear that the upgraded system is not for the purpose of intimidating or keeping closer watch on employees as they perform their daily jobs. Our main concern is thwarting security threats and keeping everybody safe. The additional cameras and new software might help us break up a fight or address bullying issues, but it’s also important for much more serious situations, like dealing with an active shooter or act of terrorism. Now we can use cameras to follow an intruder throughout our buildings, and that can help us keep everyone safe while we apprehend him.” Chris says that “When we put it like that, everyone gets on board.” Counter Terror Chris is extremely appreciative of the support Guyette Communications has provided throughout this project, including individually training each school principal as their building was completed. “I can’t stress how well Guyette has delivered for us. They’re flexible, reliable and compassionate, and they’ve been a true partner at every step of the way. I’d recommend Guyette to anybody.” With school back in session, and the district’s police force busy implementing its many safety programs, Chris looks forward to another school year without any major security incidents. However, with a new Valerus system and high-resolution cameras in place, he knows he now has not only the right people but the right technology to handle any crisis.
Technology is front and center at a beautiful new City Hall in the Northwest U.S., where community members will find local government offices, city council chambers and the department of economic development. The building’s tightly integrated electrical, lighting, fire protection, telecommunications and security solutions is the work of Coffman Engineers. Ben Helms was project manager responsible for specifying Vicon’s Valerus VMS and VAX Access Control security solutions into the facility and credits Vicon’s A&E tools and support services with helping him to get the job done right. Access control And VMS Solutions Ben says that his firm has a long history with Vicon through Vicon’s dedicated A&E outreach programs Ben says that his firm has a long history with Vicon through Vicon’s dedicated A&E outreach programs. In the past, he has attended Vicon’s annual A&E Summit, a 2 ½ day educational event filled with seminars and interactive learning for the specifying community on topics related to surveillance technologies and solutions. It was at one of these seminars that he was first shown a beta version of Valerus, Vicon’s new VMS that was still under development. “I thought it was really cool,” he says. “It’s a big jump to go to an all browser-based system and adds a lot of advantages over a hard system.” As for the VAX Access Control solution, Ben appreciated the over-the-door controllers, which he says, from his standpoint, “made the system a lot less work to design.” He says that “Normally, controllers are all lined up in an IT room and you have masses of wiring going out to the doors, so you have to worry about voltage drop and a lot of other factors. With the VAX controller, you just put it out there, connect it to a PoE drop, and you’re done.” VAX-Valerus Integration With the built-in integration between Valerus and VAX, it just made sense to go that way" When Ben began work on the brand-new City Hall, which required a unified access control and VMS solution, he saw a perfect match. “With the built-in integration between Valerus and VAX, it just made sense to go that way.” Steve Helms, Ben’s father and the Principal in Charge of the project, had also attended Vicon’s A&E Summits in the past and had seen what Valerus and VAX could do. He agreed with Ben’s recommendation. For putting together specifications for the security portion of the City Hall project, Ben relied on ARCAT SpecWizard, a free online tool that automates the spec building process. Vicon is one of only a few VMS manufacturers who have invested in providing this resource to the A&E community. SpecWizard is particularly helpful for solutions that include a wide range of components and require a degree of customization for each project. Ben says that he found SpecWizard really easy to use. “I just went in and checked the boxes for the cameras, servers and software that I wanted, and downloaded the completed spec in Word format. All I had to do was edit it a bit to cut out a few things I didn’t need. It made it really simple to grab all the parts and pieces and make sure that everything was covered.” High Megapixel Cameras The entire City Hall project was built in AutoDesk REVIT software for BIM (building information modeling) The entire City Hall project was built in AutoDesk REVIT software for BIM (building information modeling), allowing the architecture and engineering teams to collaboratively model the building’s components and simulate its systems and structures. Ben was able to access REVIT models of all of Vicon’s camera models, available through the AutoCAD360 library, drag them into the project and pop them right into place. “This part of the project was really fun,” say Ben. The models clearly showed the mechanicals for the cameras as well as their field of view. When presenting the drawings to the clients, it was easy to explain what could be seen from each camera and how they would all work together as a system to provide coverage of all critical areas. The City Hall project used several different camera models, with resolutions ranging from 2MP to 12MP. High megapixel cameras generate a tremendous amount of data and calculating bandwidth and storage requirements are complicated by factors such as frame rates, video quality, lighting, the types of images being recorded, and use of settings like motion activated recording. To guide him through this evaluation process, Ben says he relied on Vicon’s free calculator tools, which simplified the challenge of determining the system’s server and storage needs. Video-Access Control Integration The City Hall project used several different camera models, with resolutions ranging from 2MP to 12MP While Ben greatly appreciated the many tools that Vicon offers to make his job easier, he says that the biggest reason he would absolutely use VAX and Valerus again is the support he received from the Vicon team. “I have a local Vicon rep here I can call, and I know their entire technical team is always available to help me if I have any sort of issue.” Ben says that it’s also very important to specify solutions that deliver value to his clients. It’s nice to be able to say to them, “Here’s a system that is not going to cost you a ton to install, you can have unlimited user groups, unlimited users, the video and access control will completely integrate with each other, it has all these features included that a lot of systems charge extra for, and the licensing cost is pretty low. From a consulting and specifying standpoint, it checks a lot of the boxes that we really like.”
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