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If you’re responsible for a medium or large-sized office, it’s more important than ever that you have access to a means of ensuring people’s safety, managing risks and fraud, and protecting property. Any security system that you employ must therefore meet the most demanding commercial requirements of today’s offices, and tomorrow’s. This means thinking beyond a basic intrusion system and specifying a comprehensive solution that integrates smart features like access control, video management and intelligent video analytics. Because only then will you have security you can trust, and detection you can depend on. Reliable entry management Access control systems have been developed that guarantee reliable entry management for indoors and outdoors Access control is becoming increasingly important for ensuring the security of office buildings, but as the modern workplace evolves you’re unlikely to find a one-size-fits-all solution. Today, it’s commonplace to control entry to individual rooms or restricted areas and cater to more flexible working hours that extend beyond 9 to 5, so a modern and reliable access control system that exceeds the limitations of standard mechanical locks is indispensable. Access control systems have been developed that guarantee reliable entry management for indoors and outdoors. They use state-of-the-art readers and controllers to restrict access to certain areas, ensuring only authorised individuals can get in. With video cameras located within close proximity you can then monitor and record any unauthorised access attempts. The system can also undertake a people-count to ensure only one person has entered using a single pass. Scalable hardware components As previously mentioned, there is no one-size-fits-all system, but thanks to the scalability of the hardware components, systems can adapt to changing security requirements. For example, you can install Bosch’s Access Professional Edition (APE) software for small to medium-sized offices, then switch to the more comprehensive Access Engine (ACE) of the Building Integration System (BIS) when your security requirements grow. And, because the hardware stays the same, any adaptations are simple. APE’s ‘permanent open’ functionality allows employees and guests to enter designated areas easily and conveniently The APE software administers up to 512 readers, 10,000 cardholders and 128 cameras, making it suitable for small to medium-sized buildings. With functions like badge enrollment, entrance control monitoring and alarm management with video verification it provides a high level of security and ensures only authorised employees and visitors are able to enter certain rooms and areas. Of course, there will always be situations when, for convenience, you need certain doors to be permanently open, such as events and open days. APE’s ‘permanent open’ functionality allows employees and guests to enter designated areas easily and conveniently. Growing security needs You switch to the Bosch Building Integration System (BIS), without having to switch hardware (it stays the same, remember?). This is a software solution that manages subsystems like access control, video surveillance, fire alarm, public address or intrusion systems, all on a single platform. It is designed for offices with multiple sites and for large companies with a global presence. Bosch Building Integration System (BIS) manages subsystems like access control, video surveillance, fire alarm, public address or intrusion systems, all on a single platform The BIS Access Engine (ACE) administers up to 10,000 readers and 80 concurrent workplace clients per server, and 200,000 cardholders per AMC. An additional benefit to security officers is the ability to oversee cardholders and authorisations through the central cardholder management functionality and monitor all access events and alarms from every connected site. For consistency, multi-site cardholder information and access authorisations can be created on a central server and replicated across all connected site servers, which means the cardholder information is always up to date and available in every location. Intrusion alarm systems Bosch B Series and G Series intrusion control panels can also send personal notifications via text or email Securing all perimeter doors is vital when protecting employees, visitors and intellectual property. Doors are opened and closed countless times during business hours, and when intentionally left open, your office is vulnerable to theft, and the safety of your employees is compromised. For this reason, intrusion control panels have been developed with advanced features to ensure all perimeter doors are properly closed, even when the system is not armed. If a door remains open for a period of time (you can specify anything from one second to 60 minutes), the system can be programmed to automatically take action. For example, it can activate an audible alert at the keypad to give employees time to close the door. Then, if it is still not closed, it will send a report to a monitoring center or a text directly to the office manager, and when integrated with video it can even send an image of the incident to a mobile device. Customised intrusion systems What about people who need to access your building outside of working hours, like cleaning crews? Your intruder system allows you to customise the way it operates with a press of a button or swipe of a card. This level of control enables you to disarm specific areas, bypass points and unlock doors for cleaning crews or after-hours staff, whilst keeping server rooms, stock rooms and executive offices safe and secure. Bosch B Series and G Series intrusion control panels can also send personal notifications via text or email. You can program the panel to send you opening, closing, and other event alerts, which means you don’t have to be on-site to keep track of movements in and around your facility. Video management system A video management system will add a next level of security to your access control system Every office building has different video security requirements depending on the location, size and nature of the business. Some offices may only need basic functions such as recording and playback, whereas others may need full alarm functionalities and access to different sites. A video management system will add a next level of security to your access control system. For example, the video system can provide seamless management of digital video, audio and data across IP networks for small to large office buildings. It is fully integrated and can be scaled according to your specific requirements. The entry-level BVMS Viewer is suitable for small offices that need to access live and archived video from their recording solutions. With forensic search it enables you to access a huge recording database and scan quickly for a specific security event. For larger offices, embellished security functions for the BVMS Professional version can manage up to 2,000 cameras and offers full alarm and event management Full alarm and event management For larger offices, embellished security functions for the BVMS Professional version can manage up to 2,000 cameras and offers full alarm and event management. It’s also resilient enough to remain operative should both Management and Recording Servers fail. Large multi-national companies often need access to video surveillance systems at numerous sites, which is why BVMS Professional allows you to access live and archived video from over 10,000 sites across multiple time zones from a single BVMS server. When integrated with the BVMS Enterprise version multiple BVMS Professional systems can be connected so every office in the network can be viewed from one security center, which provides the opportunity to monitor up to 200,000 cameras, regardless of their location. Essential Video Analytics Video analytics acts as the brain of your security system, using metadata to add sense and structure to any video footage you capture If your strategy is to significantly improve levels of security, video analytics is an essential part of the plan. It acts as the brain of your security system, using metadata to add sense and structure to any video footage you capture. In effect, each video camera in your network becomes smart to the degree that it can understand and interpret what it is seeing. You simply set certain alarm rules, such as when someone approaches a perimeter fence, and video analytics alerts security personnel the moment a rule is breached. Smart analytics have been developed in two formats. Essential Video Analytics is ideal for small and medium-sized commercial buildings and can be used for advanced intrusion detection, such as loitering alarms, and identifying a person or object entering a pre-defined field. It also enables you to instantly retrieve the right footage from hours of stored video, so you can deal with potential threats the moment they happen. Essential Video Analytics also goes beyond security to help you enforce health and safety regulations such as enforcing no parking zones, detecting blocked emergency exits or ensuring no one enters or leaves a building via an emergency exit; all measures that can increase the safety of employees and visitors inside the building. Intelligent Video Analytics Intelligent Video Analytics have the unique capability of analysing video content over large distances Intelligent Video Analytics have the unique capability of analysing video content over large distances, which makes it ideally suited to more expansive office grounds or securing a perimeter fence. It can also differentiate between genuine security events and known false triggers such as snow, rain, hail and moving tree branches that can make video data far more difficult to interpret. The final piece in your security jigsaw is an intelligent camera. The latest range of Bosch ’i’ cameras have the image quality, data security measures, and bitrate reduction of <80%. And, video analytics is standard. Be prepared for what can’t be predicted. Although no-one can fully predict what kind of security-related event is around the corner, experience and expertise will help make sure you’re always fully prepared.
The term “smart city” gets thrown around a lot nowadays, but as different technologies that strive to be defined in this way are adopted by different countries globally, the meaning of this phrase gets lost in translation. The simplest way to define a “smart city” is that it is an urban area that uses different types of data collecting sensors to manage assets and resources efficiently. One of the most obvious types of “data collecting sensor” is the video camera, whether that camera is part of a city’s existing CCTV infrastructure, a camera in a shopping centre or even a police car’s dash camera. The information gathered by video cameras can be used with two purposes in mind, firstly: making people’s lives more efficient, for example by managing traffic, and secondly (and arguably more importantly): making people’s lives safer. Live streaming video all the time, everywhere In the smart and safe city, traditional record-only video cameras are of limited use. Yes, they can be used to collect video which can be used for evidence after a crime has taken place, but there is no way that this technology could help divert cars away from an accident to avoid traffic building up, or prevent a crime from taking place in the first place. However, streaming live video from a camera that isn’t connected to an infrastructure via costly fibre optic cabling has proven challenging for security professionals, law enforcement and city planners alike. This is because it isn’t viable to transmit video reliably over cellular networks, in contrast to simply receiving it. Video transmission challenges Transmitting video normally results in freezing and buffering issues which can hinder efforts to fight crime and enable flow within a city, as these services require real-time, zero latency video without delays. Therefore, special technology is required that copes with poor and varying bandwidths to allow a real-time view of any scene where cameras are present to support immediate decision making and smart city processes. The information gatheredby video cameras can beused to make people’s lives more efficient, and to make people’s lives safer There are many approaches to transmitting video over cellular. We’ve developed a specialist codec (encoding and decoding algorithm) that can provide secure and reliable video over ultra-low bandwidths and can therefore cope when networks become constrained. Another technique, which is particularly useful if streaming video from police body worn cameras or dash cams that move around, is to create a local wireless “bubble” at the scene, using Wi-Fi or mesh radio systems to provide local high-bandwidth communications that can communicate with a central location via cellular or even satellite communications. Enhanced city surveillance Live video streaming within the smart and safe city’s infrastructure means that video’s capabilities can go beyond simple evidence recording and evolve into a tool that allows operations teams to monitor and remediate against incidents as they are happening. This can be taken one step further with the deployment of facial recognition via live streaming video. Facial recognition technology can be added on to any video surveillance camera that is recording at a high enough quality to identify faces. The technology works by capturing video, streaming the live video back to a control centre and matching faces against any watch lists that the control centre owns. Importantly, the data of people who aren’t on watch lists is not stored by the technology. Identifying known criminals This technology can work to make the city safer in a number of ways. For example, facial recognition could spot a known drug dealer in a city centre where they weren’t supposed to be, or facial recognition could identify if a group of known terror suspects were visiting the same location at the same time, and this would send an alert to the police. Facial recognition technology captures and streams live back to a control centre, matching faces against any watch lists that the control centre owns In an ideal world where the police had an automated, electronic workflow, the police officer nearest to the location of the incident would be identified by GPS and would be told by the control room where to go and what to do. Most police forces aren’t quite at this technological level yet, and would probably rely on communicating via radio in order to send the nearest response team to the scene. As well as this, shopping centres could create a database from analogue records of known shoplifters to identify criminals as soon as they entered the building. This would be even more effective if run co-operatively between all shopping centres and local businesses in an area, and would not only catch any known shoplifters acting suspiciously, but would act as a deterrent from shoplifting in the first place. Live streaming for police As mentioned above, live streaming video from CCTV cameras can help the police fight crime more proactively rather than reactively. This can be enhanced even further if combined with live streaming video from police car dash cams and police body worn cameras. If video was streamed from all of these sources to a central HQ, such as a police operations centre, the force would be able to have full situational awareness throughout an incident. This would mean that, if need be, officers could be advised on the best course of action, and additional police or other emergency services could be deployed instantly if needed. Incorporated with facial recognition, this would also mean that police could instantly identify if they were dealing with known criminals or terrorists. Whilst they would still have to confirm the identity of the person with questioning or by checking their identification, this is still more streamlined than describing what a person looks like over a radio and then ops trying to manually identify if the person is on a watch list. The smart, safe city is possible today – for one, if live video streaming capabilities are deployed they can enable new levels of flow in the city. With the addition of facial recognition, cities will be safer than ever before and law enforcement and security teams will be able to proactively stop crime before it happens by deterring criminal activity from taking place at all.
The use of drones has increased dramatically in the last few years. Indeed, by 2021, the FAA says the number of small hobbyist drones in the U.S. will triple to about 3.55 million. With that growth, drone capabilities have increased while costs have decreased. For example, the DJI Phantom 4 can deliver a 2-pound payload to a target with 1.5m accuracy from 20 miles away for the less than $1000.00. This is an unprecedented capability accessible to anyone. This new technology has created an entirely new security risk for businesses and governments. Drone security risks Already, rogue groups such as ISIS have used low cost drones to carry explosives in targeted attacks. Using this same method, targeting high profile locations within our borders to create terror and panic is very possible. Security professionals and technologists are working furiously to address the gaps in drone defence. Currently, the most common technologies in use for drone detection are video, acoustic sensors, radio, and air surveillance radar. Each of these has advantages, but they also have flaws that make it difficult to detect drones in all conditions. Both optical and thermal cameras, as well as acoustic sensors, do not operate in severe weather such as fog and snow. And while radio and air surveillance radar cover a wide area of detection, they suffer from high installation costs and limiting technical challenges, such as being unable to detect low flying drones on autopilot. Compact Surveillance Radar (CSR) Compact Surveillance Radar (CSR) is a security technology addressing the problems with other types of detection. CSR, like traditional radar, has the benefit of being able to detect and track foreign objects in all weather conditions, but at a fraction of the size and cost. The compact size allows the radar to be mounted on existing structures or even trees, providing extensive perimeter defence almost anywhere that you can imagine. CSR can also filter out clutter such as birds by using an advanced algorithm reducing the number of false alarms. While the use of CSR and the other detection technologies are legal in the US and in most locations throughout the world, the response mechanisms are generally not. Current regulations in the US prohibit the use of jamming or GPS spoofing in all cases except for a few federal agencies Regulations limiting drones Current regulations in the US prohibit the use of jamming or GPS spoofing in all cases except for a few federal agencies. This makes it difficult to stop the damage that drones can cause. The FAA has put into place new regulations that limit some uses of drones. However, in most cases it is still illegal for even state or local governments to stop or interfere with drones other than to locate the operator and have them land the drone. In 2016 the first law to neutralise a drone in the United States was passed in Utah to respond to drones in wildfire areas because of their interference with airborne firefighting. This law may very well provide a model for other states dealing with drones in situations where people’s lives are being put at risk by drones. At the federal level, much effort is being put into evaluating the regulations and technology surrounding the misuse of drones. In the 2016 reauthorisation bill for the FAA, Section 2135 included a pilot program for the investigation of methods to mitigate the threat of unmanned aircraft around airports and other critical infrastructure. There are many federal agencies that are evaluating the use of a variety of technologies to respond to this threat. Both optical and thermal cameras, as well as acoustic sensors, do not operate in severe weather such as fog and snow Effective countermeasure technologies The most effective countermeasure for drones is jamming, currently off-limits to the private sector. This includes stadiums, convention centres, and other large gathering areas. A number of companies are developing new response technologies that do not require the use of jammers or hacking. Several companies have developed net guns that shoot a net at an approaching drone. These are only effective at less than 100m and frequently miss the target, especially when the drone is approaching at high speed. Several other companies have taken this method a step further, with drones that capture other drones. Once a radar detects a drone, another defence drone is launched and flies to the point of detection. Then, using video analytics it homes in on the drone and fires a net to disable the drone and take it to a safe location. While this drone capturing technique is still in its infancy, it shows a great deal of promise and will not be restricted in the same fashion as jamming. However, even this solution is difficult under current regulations, as all commercial drones in the US must be under direct control of a human operator within their line of sight. This effectively means that a drone operator is required to be on-site at all times to protect a facility, event, or persons. One thing is for certain, technology will continue to adapt and security companies will continue to invent new methods to protect their facilities and the people they are sworn to protect.
Digital Barriers will provide COE with access to a deep heritage in national securityCOE Group plc, the advanced video surveillance specialist, has been acquired by Digital Barriers plc. This is the third acquisition for Digital Barriers this year and is the next step in its strategy to build a leading mid-market business in the homeland security and defence sectors. For Digital Barriers, the acquisition of COE will bring world-class expertise and innovative technologies in the transmission and management of video over IP, fibre and hybrid video networks.Digital Barriers, founded by the leadership team behind Detica Group, will provide COE with access to a deep heritage in national security and the backing of a business with a market capitalisation of approximately £40m and net assets in excess of £20m.Ian Jefferson, CEO of COE comments: "We bring more than 20 years of heritage in video surveillance, helping to secure high-profile sites around the world. I see great potential to embed our expertise and technologies in an organisation that is able to address the most demanding of security requirements and has ambitions to build both its scale and reach."COE has successfully delivered its advanced surveillance solutions into over 10,000 sites worldwide, including installations for Seoul's Metropolitan Subway, UK Highways Agency, Port of Singapore, London Heathrow Airport and the BBC. The extensive client base that COE brings aligns closely with the Digital Barriers focus on protecting complex, high-value targets - encompassing government, transport, energy, utilities and other high-profile assets and locations. It also resonates strongly with the Digital Barriers philosophy that technology innovation - combined with a heritage and expertise in countering serious and organised threats - can achieve a more integrated and proactive approach to securing potential targets.Tom Black, Executive Chairman of Digital Barriers plc comments: "This is an exciting acquisition for Digital Barriers, significantly enhancing our capabilities in complex surveillance and extending our reach into a number of international markets and sectors."COE will be an important component of Digital Barriers' strategic objective to deploy focused, proportionate and cost-effective security solutions that combine innovative new technology with expert capabilities.
246 X-Stream encoders will be installed at Manchester Airport to provide analogue video encoding and transmissionAs part of an ongoing £1m+ upgrade scheme, COE Group PLC has been chosen as a major supplier for an upgrade of Manchester Airport's CCTV network. Recognising the very important role that video information plays at international airports, the necessity to provide high quality and reliable video transmission at such sites is paramount. At Manchester Airport, COE's X-Stream range of video encoders has been selected by main contractor, Advanced Integrated Systems (AIS) to provide IP encoding of analogue video for digital transmission around the airport's local area network. Superior video quality and very low latency were key decision factors, which led to the decision to integrate COE equipment.COE X-Stream 400 multi-channel video encoders (also known as video servers) will provide digital encoding at the H.264 Main Profile standard to convert four channels of analogue video to compressed IP digital video for transmission across an Ethernet network. X-Stream encoders can convert up to 4 channels of analogue video each if box mounted or up to 56 channels if rack mounted. At Manchester Airport, 246 X-Stream encoders will be installed to provide as many as 984 channels of analogue video encoding and transmission for the airport, enhancing the functionality of existing analogue cameras, and providing a high performance, yet cost-effective IP upgrade path. The complete range of COE X-Stream video serversIan Jefferson, CEO of COE Group PLC comments: "The selection of COE's X-Stream video encoders for yet another major CCTV operation is testament to the exceptional performance of this equipment. When upgrading major sites, the necessity to maintain absolute operational control during and after the project is paramount. X-Stream video encoders offer best-of-breed performance to ensure the operator faces little adjustment to his daily activities to realise the benefits of the integrated IP transmission and recording solution."Offering ‘80ms latency and superior video quality to competitors' H.264 Base Profile and MPEG4 video encoders, X-Stream will offer the closest experience possible to analogue camera control for the operators at the Airport. At Manchester Airport, video monitoring is multifunctional, serving as a set of electronic eyes for 100 individual users, assisting in a variety of diverse functions, from crowd monitoring in retail areas, to baggage handling and air traffic control. X-Stream's low latency video delivery combined with exceptional picture quality ensures the migration process from analogue to IP is seamless for these operators.Mr Geoff Densham, Project Manager with Manchester Airport PLC states: "COE's history of providing equipment for high profile surveillance sites combined with the high quality performance of their products made them an excellent choice for the IP encoding and transmission solution at Manchester Airport. The powerful integrated solution provided by COE with partner ImPerium Integration Ltd's front end control system will enhance our operational efficiency and the scope of all CCTV activities across the site. In addition, X-Stream encoders provide a road map for future analytics opportunities."
As the international awareness of terrorist threat has increased over recent years, the surveillance industry has seen willingness from global leaders to increase CCTV coverage in many areas. Terror attacks on rail networks, including the 7/7 bombings in London, the Madrid bombings in 2004 and the Mumbai bombings in 2006, have all contributed to the requirement for comprehensive CCTV coverage on all major rail networks. The demand for surveillance upgrades has been resilient through the global financial crisis proving that in uncertain times, maintaining safety and security is viewed as being more important than ever. As a video surveillance supplier specialising in products for the transport industry, COE's comprehensive range of video surveillance, transmission and management equipment has been installed in a number of high profile rail networks worldwide. COE products have increased surveillance coverage and assisted the activities of security professionals at these sites providing faultless highest quality video transmission year after year. COE have delivered solutions for major rail and metro networks worldwide, including the London Underground, France's SNCF network and Singapore's Mass Rapid Transit system. The Challenge The most recent project success by COE in the rail sector has been to provide a comprehensive upgrade of the video surveillance system for the Seoul Metropolitan Subway network in South Korea. This project provides a number of challenges, not least because of the extended network and intense usage endured by Seoul Metro. It is the third most heavily frequented metro system in the world with more passengers than either London or New York's respective networks, logging over 8 million journeys daily1 in and around the capital of South Korea. Due to the logistical constraints and expenses faced when performing network upgrades in tunnel environments, COE was faced with the challenge of providing a system which would not only transmit video over a limited existing fibre optic network, but which also would provide high levels of redundancy safe-proofing to prevent video and control loss, and potential downtime of the network. Another key challenge was the operators' requirement for instant access to highest quality real-time video at three separate control rooms across the network. Real-time access to uncompressed video is very important for rail networks where operators must give reactive decisions to support their observations, and also for the purpose of evidence provision in criminal prosecution. COE X-Net VI identifies suspect packages and activities with over 1000 cameras for the network The Optimum Solution COE's 20 year legacy of providing CCTV equipment proved invaluable in devising the optimum system specification for Seoul Metro. As the only video transmission provider to receive UK Network Rail approval for use of our products in safety critical applications, COE has a clear understanding of the requirements of security professionals in the transport sector, and has developed products specifically for use in rugged, demanding environments such as these. In total, equipment will be installed at 70 stations over lines 1, 3 & 4 of Seoul's Metro system, with a camera capacity of between 64 & 128 cameras at each station, bringing the total transmission & management capacity of the network to well over 8000 cameras. A common framework for COE IP and fibre transmission modules and a single comprehensive management solution will ensure that future expansion & development requirements for the network can be easily accommodated. To enable transmission of uncompressed video from such a large number of video channels from each station across Lines 1, 3 & 4, COE will deploy Coarse Wave Division Multiplexing (CWDM) technologies to optimise the available fibres and to enable a high channel count across the network. This technology allows transmission of up to 144 channels of video over a single fibre, and is uniquely available across COE's entire fibre product range by using CWDM enabled Small Form-factor Pluggable (SFP) Optics with hot-pluggable optic ports integrated with our products. • • • • • Product Focus - Small Form-Factor Pluggable Optics SFP optical lasers have a large number of benefits over traditional fibre optic lasers, such as: Increases to network redundancy levels Drastically decreased repair time Decreased necessity for spares holding (as optics are interchangeable) Increased distance range of transmission Field upgrading to enable CWDM or transmission range enhancement. • • • • • By integrating SFP laser ports into their X-Net fibre products, COE have created a universal product set capable of fulfilling any project requirement requiring fibre optic transmission. COE's integration of SFP optics has also ensured a best of breed performance in delivering faultless video across networks which encounter high optical losses such as Seoul's Metro network. A key requirement for surveillance systems in rail operations is consistency of operation. Downtime can be costly and dangerous in this environment, and to ensure that any potential downtime is eliminated for Seoul Metro, COE will provide a product set with integrated redundancy safe-proofing technologies augmented by a project network design offering unparalleled levels of redundancy. Each station will have 64 - 128 cameras for lines 1, 3 & 4 to provide total surveillance of the sites Dual transmission rings, automatic transmission route-switching at point of failure, dual power sourcing and dual CPUs have all combined to ensure that both video and operational control over the network (including Pan/Tilt/Zoom (PTZ) camera control and camera switching), will never be affected by failure at single or multiple points across the network. This safe-proofing is reinforced by a fully redundant recording solution, introducing a hot-swap digital video recording server; to which recording is automatically switched should a unit fail in the system. This ensures video loss will not be encountered. Control for Seoul Metro is split over three dispersed control rooms, each gaining rights-based access to viewing from any camera at any point across the entire network should the need arise. Operators' activities will also be supported by up to over 1000 sets of electronic eyes; cameras enhanced by COE's X-Net VI automated intelligent video software. This intelligent analytical software is the latest development in CCTV network security. X-Net VI raises alarms relating to a large number of potential threats around the network by responding to a wide variety of rules based analytical processes. These rules have been developed to support CCTV operators' activities, and they include: Auto-tracking of PTZ cameras to monitor individuals. Alerting to suspicious packages abandoned in a station. Alerting to groups of individuals behaving suspiciously. Zone-alarms to register when an unauthorised person has entered a restricted area. Registering ticket barrier avoidance at a station. Rules can be combined to create comprehensive tracking and alarm management for a network. This new technology refines the role of the CCTV operator in security management of a site, and can greatly enhance his performance in incident identification and response. COE's Telecommand management solution is utilised for the management and recording solution of Seoul Metro 8000+ camera network. Modular expansion may also be undertaken at a later date to ensure the system can grow with the requirements across the network. Telecommand is also found in many other networks around the world, including urban CCTV networks of many cities throughout the United Kingdom. Ian Jefferson, CEO of COE Ltd comments of the project: "Systems of this size and complexity demand high reliability rugged products coupled to efficient operations. COE designs its solutions around these criteria whilst integrating state of the art techniques and technologies. COE is the only company that designs and manufactures a complete integrated solution for a fully redundant CWDM fibre optic video transmission system, video matrix system and integrated video analytics. This combination of technologies makes COE uniquely suited to fulfil the demands encountered when approaching large and complex projects such as this." Through maintaining a UK design and manufacturing base with field representation for projects around the world, COE provides highest quality video surveillance products whilst maintaining regional support for projects. Seoul Metro will see the benefits of their surveillance network upgrade for many years to come, and the new system will play a critical role in maintaining the highest standards of security over lines 1, 3 & 4 of the Seoul Metropolitan Subway network. 1Jane's Urban Transport Systems, 2002-2003 edition
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