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End users can add security, safety and business intelligence – while achieving a higher return on investment at their protected facilities – with live streaming video. It can be deployed effectively for IP video, network video recorders (NVRs) and body-worn cameras. The growing use of streaming video is resulting in vast technological developments and high-end software that promotes reduced bandwidth, high scalability and lower total cost of ownership (TCO). Here’s how users can add value to security with live streaming video and what they should look for in the procurement of technology solutions. Questions are answered by Bryan Meissner, Chief Technology Officer and Co-Founder of EvoStream. Q: What is live streaming video and how does it apply to physical security? BM: In its simplest and most popular form, video streaming allows users to watch video on PCs, laptops, tablets and smartphones. According to GO-Globe, every 60 seconds more than 400 hours of video are uploaded and around 700,000 hours watched. The key to effective video streaming is for the platform to be able to adapt to the limits of the internet or network connection so the viewer gets an unbridled experience without buffering or signal loss. Live video streaming in security applications leverages a variety of connected devices, appliances and services including the cloud, mobile platforms, IP cameras and NVRs, becoming an enabling technology for more effective, real-time data capture at the protected premises. It reduces bandwidth costs and infrastructure operating requirements by streaming directly from cameras, mobile devices, drones, body worn units and loT devices to browsers, phones and tablets. The best solutions optimize the experience for the user and permit image capture and retrieval from Android, iOS, browser platforms or directly from cameras or NVRs—streaming to wherever the user desires. Quality live streaming applications provide clear, real-time images and retrieve high-resolution video that can be used for evidence, identification, operations management or compliance regulation and control. The most cost-effective solutions offer minimal hardware requirements, lower overall operating expenses and promote high scalability – even integration with many legacy security management platforms. Q: What are some challenges of live streaming video and how are those being addressed by new technology? BM: Live streaming video can present challenges when a solution isn’t designed specifically for the security infrastructure. End users need to look for forward-thinking software and firmware solutions which offer reduced bandwidth requirements, high scalability and a lower total cost of ownership (TCO) or they will be disappointed with the results and costs of maintaining services for end users. The most competent live video streaming lets users integrate with and run on any platform, appliance or device The technology is changing rapidly, so only providers who focus on innovation can keep pace and future-proof the user and their facility. To be most effective, video needs to be able to stream consistently and reliably to and from a host of different devices, platforms, browsers and mediums, on-premises servers or the cloud. Video footage needs to be obtained quickly and deliver critical metadata, with built-in cyber safeguards and hardening such as automatic encryption and authentication. Q: What do end users need to look for in solutions for effective video streaming? BM: Implementing a live streaming video platform should result in greater efficiency and reduced operational costs. Live video streaming to and from a variety of connected devices, appliances and services requires sub-second latency from image capture to delivery. It also needs to be as open and agnostic as possible – spanning multiple technologies, standards and protocols and giving the user enhanced flexibility for their specification. The most competent live video streaming lets users integrate with and run on any platform, appliance or device including standalone servers, server racks, public, private and hybrid clouds and other distribution channels using the same application programming interface or API. Streaming should also support the latest codecs, such as H.264 and H.265 along with widely specified protocols for the distribution of that video. Q: What are some of the trending technological developments in live streaming video applications? BM: Traditional video streaming consumes exorbitant amounts of bandwidth and users pay for video routed through their servers. Some of the latest capabilities, such as peer-to-peer streaming, HTML5 media players, metadata integration and cost-effective transcoding via RaspberryPi enhance overall processing and ultimately strengthen the user experience. Peer-to-peer is a critical, emerging component in effective video streaming. With peer to peer, video does not go through servers but instead streams directly between the camera and the end-user’s phone, for example, eliminating that cost of bandwidth from the platform while still permitting exact control of content. Users stream live from cameras to any device, with the ability to authenticate and approve peering from the back-end infrastructure while enabling low-latency HTML5 without incurring excessive platform bandwidth costs. The explosion of live streaming video in IP video cameras, NVRs and body-worn cameras is driving a new category of high-end software offering reduced bandwidth, high scalability and lower TCO. It prepares users for new technology and the loT, eliminating the largest cost driver of hosted live streaming platforms – bandwidth. Applications that offer peer-to-peer streaming and other feature sets can help future proof the end-user’s investment and strengthen the value proposition for viewing or retrieving live or archived video effectively.
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.
Today, almost every employee carries with them a smart device that can send messages, capture, and record images and increasingly live-stream video and audio, all appended with accurate location and time stamping data. Provide a way for staff to easily feed data from these devices directly to the control room to report an incident and you have created a new and extremely powerful ‘sensor’, capable of providing accurate, verified, real-time multi-media incident information. You need only to watch the television when a major incident is being reported. The images are often from a witness at the scene who recorded it on their device. It is madness that it has until now been easier for people to share information around the world via Facebook and YouTube etc, in a matter of minutes, than it is to transmit it to those that need to coordinate the response. The Public As An Additional Security And Safety Sensor In the UK, a marketing campaign designed by government, police and the rail industry is currently running. Aiming to help build a more vigilant network on railways across the country and raise awareness of the vital role the public can play in keeping themselves and others safe, the ‘See It. Say It. Sorted’ campaign urges train passengers and station visitors to report any unusual items by speaking to a member of rail staff, sending a text, or calling a dedicated telephone number. Essentially, the campaign is asking the public to be an additional safety and security sensor. However, with the help of the latest mobile app technology, it is possible to take things to a whole new level and this is being demonstrated by a large transport network in the US. This organization recognized that the ideal place to begin its campaign of connecting smart devices to the control room as an additional sensor, was by engaging its 10,000 employees (incidentally, this is approximately twice the number of surveillance cameras it has). These employees have been encouraged to install a dedicated app on their cellphones that enables them to transmit important information directly to the control room, as well as a panic button for their own safety. This data can be a combination of images, text, audio, video and even live-streaming, to not only make the control room aware of the situation but give them eyes and ears on the ground. For the control room operator, the insights being fed to them from this ‘sensor’ have arguably more value than any other as they provide pinpoint accurate and relevant information Combating Control Room Information Overload For the control room operator, the insights being fed to them from this ‘sensor’ have arguably more value than any other as they provide pinpoint accurate and relevant information. For example, if an alert comes in about a fire on platform 3, the operator doesn’t necessarily require any of the information from the other sensors, nor does he need to verify it’s not a false alarm. He knows that the information received has been ‘verified’ in-person (it is also time and location stamped) and that there is an employee located in the vicinity of the incident, who they can now directly communicate with for a real-time update and to co-ordinate the appropriate response. Compare this to a 24/7 video stream from 5000 cameras. It is in stark contrast to the typical issue of sensors creating information overload. The employee only captures and transmits the relevant information, so in essence, the filtering of information is being done at source, by a human sensor that can see, hear, and understand what is happening in context. So, if an intruder is climbing over a fence you no longer need to rely on the alert from the perimeter alarm and the feed from the nearest camera, you simply send a patrol to the location based on what the person is telling you. Furthermore, if the control room is operating a Situation Management/PSIM system it will trigger the opening of a new incident, so when the operator receives the information they are also presented with clear guidance and support regarding how to best manage and respond to that particular situation. Transport networks are using staff and the public as additional safety and security sensors Application Of Roaming Smart Sensors To be clear, this is not to suggest that we no longer need these vitally important sensors, because we do. However, one major reason that we have so many sensors is because we cannot have people stationed everywhere. So, in the case of the US transit company, it has been able to add a further 10,000 roaming smart sensors. This can be applied to other industries such as airports, ports, warehouse operations, stadiums, and arenas etc. Now, imagine the potential of widening the scope to include the public, to truly incorporate crowdsourcing in to the day-to-day security function. For example, in May, it was reported that West Midlands Police in the UK would be piloting an initiative that is asking citizens to upload content relating to offences being committed. Leveraging Existing Hardware Infrastructure Typically, when introducing any form of new security sensor or system, it is expected to be an expensive process. However, the hardware infrastructure is already in place as most people are already in possession of a smart device, either through work or personally. What’s more, there is typically an eager appetite to be a good citizen or employee, just so long as it isn’t too much of an inconvenience. Innovations in smart mobile devices has moved at such a pace that while many security professionals debate if and how to roll-out body-worn-cameras, members of the public are live-streaming from their full HD and even 4K ready phones. The technology to make every employee a smart sensor has been around for some time and keeps getting better and better, and it is in the pockets of most people around the world. What is different now is the potential to harness it and efficiently bring it in to the security process. All organizations need to do is know how to switch it on and leverage it.
Sun Microsystems deploys Dedicated Micros digital video security solution Digital, networked, CCTV solutions from Dedicated Micros - part of AD Group - including its high performance DV-IP Servers, are playing a key role in allowing Sun Microsystems, headquartered in Santa Clara, California, to not only enhance the security of its offices worldwide but also, crucially, to realize an impressive return on investment which, to date, has resulted in savings which run into millions of dollars.The customer challengeWith 34,440 employees spread across more than 300 offices in over 100 countries worldwide, Sun Microsystems has a massive security challenge. For more than 15 years, Sun's security organization relied on analog CCTV systems using VCRs to capture and store video. The disadvantages of this approach were numerous, starting with the high maintenance and support costs, in addition to the labour required to change tapes, review tapes, and replace broken tapes.Steve Kruschke, Sun's Manager of New Security Technologies and Applications, led the effort to find a digital solution in 2005: "We wanted leading edge digital technology to leverage our IP network infrastructure, and we needed a matrix solution to control multiple video servers from centralised regional control rooms," said Kruschke. "Additionally, we were looking for a solution that was not reliant on Windows-based personal computers."Dedicated Micros solutionSun Microsystems chose to build its new video surveillance system around the Dedicated Micros DV-IP Server, a high-performance network Digital Video Recorder and Server developed to meet the demands of professional surveillance applications."Dedicated Micros is one the very few digital video surveillance companies that doesn't require the installation of client software on a PC," stated Kruschke. "The DV-IP Server has no problem handling our network-based, Solaris-FireFox architecture." Sun Microsystems chose to build its new video surveillance system around the Dedicated Micros DV-IP ServerWorking with global distributor and systems integration partner Siemens Security, Sun has deployed approximately 1500 plus channels of video through the DV-IP Servers worldwide to date. Sun also installed multiple DV-IP Codec units.In encoder mode the DV-IP Codec enables existing and new analog cameras to be added to an IP network, allowing Sun's legacy video surveillance systems to expand and adapt to digital without the cost and trouble of completely replacing and redesigning the installation.Pick-a-Point Digital Matrix for Regional Control Centres In late 2007, Sun's operations group began looking for ways to bring large-scale digital video surveillance to its five regional control centres, located Asia, Australia, Europe, North America, and South America. In the past, analog video was brought into the regional control centres using local A/D switches."We wanted to bring live and recorded digital video from local offices into the regional centres, and at the same time make the control interface more user friendly for operators," recalled Kruschke. "After gaining approval from our IT department to bring video across network, we decided to make the North American regional control centre in Broomfield, Colorado our first test site."At the heart of the large-scale video surveillance system is the Pick-a-Point centralised command and control workstation offered by Dedicated Micros and developed by integrator and strategic partner BBV."The unique embedded Pick-a-Point control system is ideal for Sun's computing environment because it is a dedicated standalone hardware based workstation, which eliminates reliability and training issues associated with PC based client software systems," said Kruschke.Another exciting new application is live monitoring of ongoing events. For example, Sun has about a dozen offices in the area of the southeastern United States that was affected by hurricane Gustav. Using Pick-a-Point and DV-IP Servers, operators in Colorado were able to help manage personnel during the event by checking live video feeds of office locations. Multiple DV-IP Codec units are also installed at SunReturn on investmentSun Microsystems has achieved a substantial return on its investment from Dedicated Micros' DV-IP Servers. Kruschke estimates that eliminating approximately 400 VCRs and the number of tapes required for 14-day backups saves the company $99,000 per year in maintenance globally. Even more significant is the $1.8 million in global yearly labour costs that Kruschke calculates is saved by Dedicated Micros DV-IP Servers.Said Pauline Norstrom, Director of Worldwide Marketing at Dedicated Micros: "The experience of Sun Microsystems in this case demonstrates the positive impact that, specifying and installing, an effective surveillance solution can have for a business." View full Dedicated Micros case study
Pick-a-Point Icon has been designed to be intuitive for operators and builds on the success of earlier variants Dedicated Micros - part of AD Group - highlighted the installation and end user benefits of integrator BBV's enhanced Pick-a-Point Icon Digital Matrix solution at the recent IIPSEC 2009 exhibition. This is now fully integrated with the latest range of DV-IP products, including the HighVu Excel, DV-IP Server, Decoder, RT and HD. The new Pick-a-Point Icon also has HDMI interfaces as standard allowing high definition video to be displayed on associated video walls.Looking at the Pick-a-Point Icon system in more detail, it seamlessly brings together CCTV system components into the control room environment, providing a dedicated multi-site video management solution for medium and large scale CCTV deployments.Pick-a-Point Icon is able to replicate the simplicity of operation associated with a traditional analog matrix by allowing control of multiple video servers without the need for thousands of metres of cabling. It also offers the potential to build scalable video walls - including High Definition (HD) displays - that allow cameras from any number of monitored sites to be viewed simultaneously.Said Pauline Norstrom, Director of Worldwide Marketing at Dedicated Micros: "From the start Pick-a-Point Icon from BBV has been designed to be intuitive for operators and builds on the success of earlier variants by adding new capabilities such as the display of HD CCTV and the ability to work seamlessly with Dedicated Micros' latest DV-IP systems. Typical applications for Pick-a-Point Icon include: public housing schemes, town and city centre CCTV and educational establishmentsCrucially, it continues to provide a familiar environment so greatly simplifying and speeding up image retrieval. "After initial bespoke commissioning by BBV, operators can simply select cameras using Pick a-Point Icon's enhanced GUI (Graphical User Interface). Multiple map screens and highly detailed map images readily allow operators to select a camera on-screen without having to know which digital video recorder the camera is linked to."Unlike many virtual matrix solutions that are dependent on a PC to record, view or playback video, Pick-a-Point Icon is a stand-alone hardware based workstation which eliminates reliability and training issues associated with PC based systems."Typical applications for Pick-a-Point Icon include: public housing schemes, town and city centre CCTV and educational establishments. Ultimately, Pick-a-Point Icon can be deployed, effectively, where there is a requirement to monitor and control a large number of sites, scattered across a wide geographical area, all from a single, centralised, control room.
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