IndigoVision CCTV Digital Video Recorders (DVRs)(12)
IndigoVision Doubles Resilient NVR Storage with 2TB Disks IndigoVision, leading manufacturer of complete IP Video security solutions, introduces 2TB disks to its NVR-AS 3000 range of 'Plug & Go' Linux Network Video Recorders. This doubles storage capacity without increasing physical footprint, power consumption or associated environmental control equipment. With up to 6TB of usable RAID 5 storage in a single unit, the NVR-AS 3000 is a compelling alternative to Windows-based storage. Resilience, reliability and low-maintenance are the key to the NVR-AS 3000's "Plug & Go" capability. They support fully redundant power supplies and fully redundant Gigabit Ethernet connections as well as options for RAID 0, RAID 1 and RAID 5. Linux means no upgrades/patches as required with Windows storage and its built-in firewall make it secure. Extremely low power consumption and heat dissipation enable units to be rack- or desk-mounted. IndigoVision's distributed architecture means that NVRs can be located at any point on the network, for example near clusters of cameras in order to reduce bandwidth across the network. Using "Control Center", IndigoVision's Video Management Software, advanced redundancy strategies can be easily implemented. Backup NVRs can continuously record the same video in parallel to primary NVRs (mirroring) or automatically takeover recording if a primary NVR fails. Backup NVRs can be located at a different physical location to primary NVRs, adding further resilience to physical disruption.NVRs record full framerate video and audio from 64 cameras and playback 20 streams simultaneously. Models are available with a range of storage capacities from either fixed disks or hot-swappable removable drives. All disks are rated for 24/7 recording and have a 3-year warranty. The high-performance of the NVR-AS 3000 products coupled with IndigoVision's class-leading compression technology means that each NVR can record both MPEG-4 and H.264 video from multiple cameras for long periods. For example, a single NVR-AS 3000 can record H.264 video from 32 IndigoVision cameras continuously at 4SIF, full framerate, based on moderate motion levels for over 31 days. To record for longer periods, simply spread cameras across more NVRs; for example, for 90 days use 10 cameras per NVR. NVRs record video from both IndigoVision IP cameras and third party ONVIF cameras. Due to the NVRs' ultra low power consumption running costs are much lower compared to Windows-based storage. They can be stacked densely in a 19 inch rack, which requires less AC cooling plant and reduces physical footprint.Add to Compare
16 channels, Real Time / Timelapse recording, Inbuilt Multiplexer, 1, Duplex, 4000 GB storage, PAL, NTSC, RAID0, 16 in, 1 out, 2 x 10/100/1000 BaseT, RJ-45, 440 x 234 x 110, > 115 W, 0 ~ 45Add to Compare
IndigoVision will be revealing for the first time a new range of high-performance standalone Network Video Recorders (NVRs) for its complete end-to-end IP Video solution at the ASIS 2009 show. The new NVR-AS 3000 range has more than double the performance of the company's existing models and has excellent green credentials with extremely low power consumption. Each NVR can record video and audio from up to 64 cameras and playback up to 20 video streams at full framerate simultaneously. Several models are available with different storage capacities from either integrated fixed disks or hot-swappable removable drives. All the NVRs use the latest hard drive technology from Seagate, with disks that have been developed for continuous video surveillance recording. Each disk drive has a 5-year warranty. The high-performance specification of the new NVRs, coupled with IndigoVision's class-leading compression technology means that each NVR can record both MPEG-4 and H.264 video from multiple cameras for long periods. For example, a single NVR-AS 3000 could record H.264 video from 32 cameras continuously at 4SIF, full framerate, based on moderate motion levels for 50 days. As with all current IndigoVision standalone NVRs, the new 3000 range is based on a robust LINUX architecture and provides high-levels of redundancy. The new models can be configured to have RAID 0, RAID 1 or RAID 5 disks and all have redundant network connections and internal power supplies with redundant power connectors. Using ‘Control Center', IndigoVision's Security Management Software, users can implement advanced redundancy strategies. NVRs can be configured to work as failover backups and mirrors for primary NVRs. The backup NVR can continuously record the same video in parallel as the primary NVR (mirroring) or automatically takeover recording if the primary NVR fails. Due to the distributed architecture of IndigoVision's IP Video solution, the backup NVRs can be located at a different physical location to the primary NVRs, adding further to the resilience of the system. Sophisticated webs or chains of NVR redundancy can be implemented allowing the user to choose their level of redundancy based on a risk/cost analysis. Alongside the NVR-AS 3000 IndigoVision is also launching the Compact NVR. Based on the same technology, the Compact NVR is designed for smaller applications such as retail outlets and commercial premises. The unit allows 20 cameras to be recorded and played back at the same time and consists of a single removable drive for easy archive or securing of evidence. The Compact NVR is smaller in size than the NVR-AS 3000 and can be mounted horizontally or vertically. The NVR-AS 3000 range has extremely low power consumption ranging from 32W (Compact) to just 53W (RAID Array). This means running costs are much lower compared to PC-based recording servers with attached storage. They can be stacked densely in a 19 inch rack and any AC cooling plant can be smaller, both helping to reduce the overall cost of the recording solution and physical footprint - an important consideration in many control and plant rooms. The ‘AS' in NVR-AS 3000 stands for ‘Alarm Server' and means that each NVR can also store system-wide real-time alarm information that is configured in ‘Control Center'. This ensures that automatic alarm events can still operate even though a ‘Control Center' workstation is inoperative, adding further redundancy to the system. A typical event would be an access control alarm, generated from an attempted illegal entry, triggering the nearest camera to pan and zoom to a pre-configured position so that the area around the entrance could be monitored and recorded.Add to Compare
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In today’s market, efficient use of bandwidth and storage is an essential part of maintaining an effective video surveillance system. A video management system’s ability to provide analysis, real time event notifications and crucial image detail is only as a good as the speed and bandwidth of a surveillance network. In the physical security industry, H.264 is the video compression format used by most companies. Some companies also employ H.264 enhancements to compress areas of an image that are irrelevant to the user at a higher ratio within a video stream in order to preserve image quality for more important details like faces, license plates or buildings. The H.265, H.264’s successor, will be increasingly used for compression in the future. Some companies are already using H.265 in their cameras and video management systems, while a host of other manufacturers are certainly preparing for its broader adoption in the years to come. Video compression technologies Reduced bandwidth and storage requirements are the primary benefits of video compression technologies Reduced bandwidth and storage requirements are the primary benefits of video compression technologies. In some cases, H.265 can double the data compression ratio of H.264, while retaining the same quality. Increased compression rate translates into decreased storage requirements on hard drives, less bandwidth usage and fewer switches – all of which reduce overall costs of system ownership. H.265 compression delivers a lower bitrate than H.264, which is relevant to end users and integrators because the lower bitrate reduces strain on hardware and can reduce playback issues. It’s very important that the compression format that is used is supported in all of the different components of a system: cameras, desktop computers on which the VMS is running and the VMS itself. It is also good for end users and integrators to understand the basics of video compression. Having a basic understanding of compression allows users to tweak settings to reduce bandwidth usage even more. Many cameras come with default settings that can be changed to ultimately reduce costs. ONVIF physical security In the physical security industry, ONVIF is working to incorporate into its specifications the use of new formats such as H.265 but is not directly involved in developing the compression standards themselves. With Profile T, the new ONVIF video profile released will employ a new media service that is compression agnostic. This means that it can support new video compression formats, including H.265, as well as new audio compression formats, with the ability to include new video and audio codecs as needed in the future without having to redesign its media service. In the physical security industry, ONVIF is working to incorporate into its specifications the use of new formats such as H.265 Standardisation organisations that are directly addressing new compression standards include the International Telecommunication Union (ITU), the Moving Picture Experts Group (MPEG) and a joint commission of the International Organization for Standardization (ISO)/International Electrotechnical Commission (IEC), which is addressing the coding of audio, picture, multimedia and hypermedia information. Other compression formats on par with H.264 and H.265 are being developed by companies such as Google. H.265 compression formats Using products that employ H.265 compression will reduce costs through bandwidth reduction, as will changing default settings on cameras, which are often conservative. Having a basic understanding of compression formats and how to tweak camera factory default settings also gives integrators the ability to further reduce bandwidth for added costs savings and increased system performance. These enhancements will analyse which parts of an image are most important and adjust local levels of compressions accordingly It is also worth noting that H.265 enhancements will likely be developed by camera manufacturers to further reduce bandwidth, as was the case with H.264. These enhancements will analyze which parts of an image are most important and adjust local levels of compressions accordingly. While H.265 itself is ready for prime time, its value as a tool for IP-based surveillance systems is dependent on support for the codec in all parts of the system – the VMS, server hardware, graphics cards and camera. Though widespread H.265 adoption is predicted, providers of these components are jumping on the H.265 bandwagon at different rates of speed. ONVIF is including support for H.265 in its new video profile, Profile T, because it believes it will become the most widely used compression format and ONVIF recognises the need to anticipate that migration as a future need of the industry. The new media service, which will be implemented with Profile T, will be future-proof in that when new compression formats are released in the future, ONVIF can adopt them very quickly. That flexibility will definitely help integrators.
According to IHS Market, it is estimated that there are over 60 million security cameras in the United States, and other reports say these cameras capture more than four billion hours of footage per week. Over the last decade, IP camera technology has dominated the conversation as it has provided users with a broad offering of enhanced image quality and features. With a large percentage of existing security systems relying on analogue, many end users looking for high definition (HD) video quality have been forced to take on a complete system overhaul. Infrastructure overhaul for HD video To make the switch, customers would need to change everything, from cameras to hardware to wiring– not to mention the lengthy installation process that would ensue. IP cameras also require higher Internet speeds and more cloud space. Whether constrained by budget, bandwidth or storage, many end users have been unable to adopt this new video surveillance method.Thanks to technological advancements within the security industry, HD over Coax offers a viable solution for integrators and end users alike Thanks to technological advancements within the security industry, HD over Coax offers a viable solution for integrators and end users alike. By utilising the current Coaxial cables, this offering yields high definition video, while requiring minimal infrastructure changes and is an optimal surveillance choice for security customers. Plus, with new advancements and updates being made frequently to this technology, there is a solution for every security need. The enhanced alternative of HD over Coax has been warmly welcomed in the security industry, thanks to its simple solutions and ever-evolving features. Many new analogue HD cameras are “plug and play,” able to connect directly to existing Coaxial cables. This eliminates the need for a complete system change, creating cost-savings for the end user and an enhanced video quality offering. Easy solutions for HD video As a result, integrators can cost-effectively upgrade their customer’s surveillance solution while using their legacy infrastructure, making it an attractive option for end users and an easy sell for dealers. Latency in video is another common issue with network-based camera systems, where even the slightest delay in video surveillance can hinder security response HD over Coax cameras themselves are always expanding and evolving to meet a wide array of security needs. With the introduction of fisheye and multi-sensor cameras, users now have a multitude of coverage options, not to mention the introduction of 4K bringing resolution options to the same level as IP. Some newer technologies are even touting 4K cameras paired with 4K digital video recorders (DVRs) made specifically for analogue systems. Longer cables grant transmission for up to 1600 feet, double the distance of standard analogue solutions, and triple that of IP systems. This single cable is able to transmit both HD video and audio. Recently, broadcast quality audio over Coax has become available in limited models, a substantial improvement over older analogue technology, which was unable to transmit audio. Stopping video delay Latency in video is another common issue with network-based camera systems. Even the slightest delay in video surveillance can hinder security response. IP cameras are forced to compress and packetise their video for transmission. The outcome of this is a reduced number of images per video, which in turn causes delay. HD over Coax on the other hand, delivers an unlimited amount of HD images in real time, with smooth motion and impressive clarity. Additionally, the point-to-point transmission delivers uncompressed video free of lag. Another touted benefit is that, unlike IP networked cameras, analogue systems provide a more secure video transmission. With so much sensitive information housed on a businesses’ network, adding another point of network access through an IP camera can create concerns for cyber security risks. HD over Coax delivers an unlimited amount of HD images in real time, with smooth motion and impressive clarity Preventing network hacking With HD over Coax, the physical connections between the camera and DVR prevent network hacking. By keeping the video surveillance system offline, security professionals are able to direct their attention to the physical threats at hand, rather than having to focus on deterring cyber security risks. One of the primary difficulties of deploying HD video solutions is the fact that many older systems utilise a wide variety of HD standards and platforms. To make matters more complicated, after HD over Coax was brought to market, manufacturers raced to create their own version of this technology. Today, the most popular proprietary standards are HD-CVI, HD-TVI and AHD. However, integrators and customers found that attempting to manage multiple HD technologies proved to be near impossible.Integrators and customers found that attempting to manage multiple HD technologies proved to be near impossible Diversifying surveillance through one DVR To combat these issues, manufacturers have introduced products with more flexibility to their portfolios. One example of this is the penta-brid DVR which grants the ability to seamlessly integrate multiple technologies deployed across one application. This means that systems with diverse camera brands and technologies, such as a mix of HD-CVI, HD-TVI, AHD, analogue or IP, can be connected through one DVR. For many end users with legacy analogue systems, penta-brid DVRs give them greater freedom to choose between a variety of solutions, rather than being limited to one option. With video resolution increasing, the space needed to store the footage is similarly rising. Penta-brid technology has been able to adapt to these evolving needs, giving users ample storage space to house the HD and 4K surveillance video with some of the newest models including H.265 compression. HD casino surveillance made simple For casinos, HD images are critical for identifying unauthorised personnel and unlawful behaviours to create a safe environment for guests and staff While HD over Coax is beneficial to many end users and integrators, those in the casino and hospitality markets find it crucial. With a combination of high profile guests, large amounts of cash on hand, constant crowds and strict industry regulations, reliable video surveillance is a must. Deploying new IP systems comes at a stiff price. When looking to upgrade their video surveillance, casinos must also be mindful of the installation process. When moving to an IP-based system, ripping out old wires and replacing them with new is the standard practice. This practice can be both disruptive and costly, not to mention gaming regulations require casino activities be monitored at all times so a complete system shutdown would result in revenue loss. This cost can be hard to justify, especially when the current legacy analogue system remains in working condition with only the lower image resolution to date it. For these scenarios, the most cost-effective option is to leverage the legacy infrastructure, replace the existing cameras with new devices, and reap the benefits that HD video has to offer without any lapse in security. For casinos, HD images are critical for identifying unauthorised personnel and unlawful behaviours to create a safe environment for guests and staff. HD over Coax cameras now offer the same resolution as IP cameras with a plug and play approach, that cuts down on expense without sacrificing quality. For businesses and applications that are unable to adopt IP technology, whether it be cost or time prohibitive, HD over Coax now features most of the same benefits IP has to offer without breaking the bank. By providing clear images in real time, maximising existing infrastructure, and affording cyber security benefits, HD over Coax provides an attractive solution for many end users and integrators.
Dollars spent by video surveillance customers must go towards ensuring high-availability capture, storage and on-demand access to live and archived video. Reaching this goal mandates high-availability of independent components – camera, network, storage (edge, external), internet connectivity, display, all Video Management Software (VMS) components and an architecture that can take advantage of this. In this note, we focus on seeing our way through to a video surveillance architecture, that provides high availability storage, access to live and stored video content. Of all options available to store recorded video, edge recording is the only one that is unaffected by network failure Edge recording Of all options available to store recorded video, edge recording is the only one that is unaffected by network failure. This makes edge storage a must-have. But, this has some limitations at present: Edge storage capacity is limited. Edge media has a short lifetime, rated only for thousands of hours of continuous recording. Most cameras are not secure and physical damage to the camera could lead to catastrophic loss of edge stored content. As storage and compression technology evolve, the constraints imposed by (1) and (2) could go away. However, securing cameras will continue to be a barrier for most installations. Secure external storage It is thus imperative to also store video in secure external storage. Such an architecture uses edge storage to fill in content gaps created by network, external storage outages. As edge storage technology improves, larger gaps can be filled in, but one will always need external storage. By our definition, ‘external storage’ is a solution stack that includes storage media and all software (including VMS) that provide access to this storage. Access to live and archived video Access to live video can either be met by external storage or directly by the camera Every surveillance solution needs to provide access to live and archived video. Access to live video can either be met by external storage or (and) directly by the camera. All things being equal, having the camera directly provide live video access, is a higher-availability solution. There is dependence on fewer components in the chain. Solutions in the market use one of the above two approaches for access to live video. Due to limited capacity and low physical security of edge storage, it makes sense at present, to have external storage meet all requests for archive video. Thus, we are led to an architecture that has heavy dependence on external storage. Dual-recording For high-availability, external storage must be architected with redundancy. Ideally, independent components that make up external storage – storage media, associated hardware and software (including VMS components), should be individually redundant and have smart interconnectivity. However, solutions in the market rigidly tie these components together. Failure of a single component causes failure of external storage. For e.g. hardware failure of a server causes VMS component failure AND storage failure. DR provides a smart way to provide high-availability for external storage For these solutions in the market, high-availability is achieved by having additional external storage units that step-in during outages of primary units. If these additional units continuously duplicate primary units, access gaps are minimised, and archive access is un-affected during primary unit outages. This is the idea behind Dual-Recording (DR). To meet cost budgets, these additional units can be configured to store subsampled (framerate, resolution) video content. A small number of additional units can support concurrent outages of all primary units. A few-to-many redundancy. Rising need for dual-recording Most cameras cannot be physically secured, and video content produced by a camera must be stored externally. Many VMS solutions use external storage to service live video access requests. Edge storage limitations impose restrictions on edge archive access at present. So, external storage is used to service requests for archive access too. Thus, a surveillance system ends up being over-dependent on external storage. DR provides a smart way to provide high-availability for external storage. As edge storage improves, it will be able to service archive access requests. VMS software will need to evolve, to use this capability smartly.
Serving customer needs is the goal of most commerce in the physical security market. Understanding those needs requires communication and nuance, and there are sometimes surprises along the way. But in every surprising revelation – and in every customer interaction – there is opportunity to learn something valuable that can help to serve the next customer’s needs more effectively. We asked this week’s Expert Panel Roundtable: what was the best lesson you ever learned from a security end user customer?
Motorola Solutions has agreed to acquire IndigoVision, a U.K.-based provider of end-to-end video security solutions. The boards of Motorola Solutions, its holding company and IndigoVision have reached an agreement on the terms of a recommended cash acquisition for approximately $37.2 million, representing a premium of approximately 116 percent based on the average share price over the most recent 12-month period. The acquisition will be funded by existing cash resources of Motorola Solutions and become final in May 2020. Motorola Solutions has a strong presence in the large and expanding area of video security since acquiring Avigilon in March 2018. Their product offerings include high-definition cameras, advanced video analytics, network video management hardware and software and access control solutions. IndigoVision is a developer of complete, end-to-end video security solutions from cameras to video recorders to body-worn cameras to security management software. Motorola Solutions says the IndigoVision range of products, global presence and customer base are "highly complementary" to Motorola Solutions' existing presence in video security. Among the benefits is enhanced geographical reach across a wider customer base. "The access we will now have to Motorola Solutions' range of innovative technologies will create new opportunities for IndigoVision and enable us to bring an exciting proposition to the market that allows us to further deliver on our goal of delivering safety, security and business intelligence," says Pedro Vasco Simoes, Chief Executive Officer of IndigoVision. "We share IndigoVision's commitment to providing next-generation, end-to-end video security solutions that enhance safety, security and efficiency," says John Kedzierski, Senior Vice President, Video Security Solutions, Motorola Solutions.
A security system upgrade at one of Australia’s most prestigious universities has seen Gallagher’s solutions installed at campuses across Melbourne. According to the University of Melbourne, Gallagher was selected for the upgrade due to their strong integration capability, commitment to supporting the university’s long-term site plan, and investment in development. Gallagher worked in partnership with the university and Gallagher Channel Partner MGA Electronic Security to roll out the upgrade in over 150 buildings across seven campuses. The partnerships were integral to the success of the rollout, ensuring the system was configured to best meet the university’s needs. System flexibility “We’re impressed with not only the flexibility of the system, but the support from Gallagher,” says Adam Leach, Security Systems Coordinator at the University of Melbourne. Project Leads from the university visited Gallagher’s head office in Hamilton, New Zealand, prior to the project beginning. The upgrade included access control for over 3,000 doors, over 177,000 cardholders, and thousands of inputs “The opportunity to visit Gallagher and see their investment in R&D showed us that they are committed to growth and future developments. We were looking for a long-term business relationship, and we are definitely confident we have chosen the right solution.” Complete site control The upgrade included access control for over 3,000 doors, over 177,000 cardholders, and thousands of inputs. Gallagher Command Centre software, a powerful solution offering complete site control from one central platform, runs at the heart of the university’s security system. “The integration capabilities of Gallagher’s Command Centre are second to none,” says Leach. The university has integrations with Active Directory, Unicard, Syllabus Plus, IndigoVision and Schindler. People safety One of the key decisions in choosing the Gallagher system for their upgrade was its flexibility to grow with the university. “Our security solutions are designed to protect sites now and into the future,” says Scott Johnstone, Gallagher’s National Sales Manager, Australia and Papua New Guinea. “We’re pleased to be able to support the University of Melbourne with their long-term plans, all while ensuring the safety of their people, assets and information.” MGA Electronic Security completed the upgrade project quicker than expected and on budget, undertaking the entire system changeover in under 18 months.
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