Geutebruck Showcases TopLine Range Including New 2 Megapixel Day/night Network Camera
Geutebruck Showcases TopLine Range Including New 2 Megapixel Day/night Network Camera

Geutebruck's new TopBC-2188 network camera is a high resolution 2 megapixel day/night camera with a 1/1.8"-CCD sensor and removable IR cut filter for brilliant picture quality round the clock.  Like the others in the TopLine range, this camera supports complex operations with multi-streaming in H264CCTV, MJPEG and MPEG4 video compression formats.  For the discerning security user the H264CCTV format delivers video played back with fluid motion forwards or backwards, even frame by frame, without the usual gaps or jumps produced by other H.264 implementations and through which critical details may be lost.   Designed for license-free use with Geutebruck video security systems, the TopBC-2188's functions include white balance, exposure, electronic shutter (AES), back light compensation, flickerless and automatic gain control (AGC).  It supports text overlay, motion detection, privacy masking, mirror function and an electronic PTZ function.  For easy installation, TopLine cameras can be powered either from a local supply or centrally by PoE. The ‘TopLine' range includes eight box cameras and a fixed dome camera with various megapixel resolutions, sensor types, standard colour and true day/night options.  "Our new TopLine range are all high specification cameras designed for top performance and seamless integration into our systems," comments Frank Brandtner, Geutebruck's product marketing manager.  "There are types and resolutions for all kinds of application and they all provide brilliant crystal-clear pictures. In addition, our advanced compression format H264CCTV, which is specially optimized for security users, guarantees professional video surveillance with completely air-tight event recording."

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Geutebruck’s New Nano DVR Concept For VIPCAM And CAM2IP IP Sources
Geutebruck’s New Nano DVR Concept For VIPCAM And CAM2IP IP Sources

Geutebruck is giving all its systems the capacity for decentralised video recording on standard commercial SDHC cards. This so-called Nano DVR concept enables situations to be documented and analysed without a direct system link to the camera.The latest firmware for the VIPCAM-DN101/PX, an extremely high resolution day/night network camera with a hyper wide dynamic range, and for the CAM2IP, a camera server for integrating analog cameras into Geutebruck networks, enables video data to be fed straight to the built-in SD card slots whether or not the devices have a network connection. With a preformatted 32 GB SDHC card and using the basic activity detection function or a relay contact to control recording, you can store up to 32 hours of live video in 2CIF format or significantly longer durations with lower picture rates or smaller formats (e.g. 1 fps @ 2CIF = 800 hours). You can switch the activity mode via the input contact of the digital interface, and use the output side for distributing error and status messages.The video data is stored on the card in Geutebruck's proprietary GBF format. It is password-protected and accessed using the card reader provided with the camera or server unit. The necessary GSCView viewing software is copied to the memory card after formatting so that recorded footage can be displayed on any computer with a Pentium 4 processor or better. Older VIPCAM-DN101/PX and CAM2IP devices can be updated for standalone use with the new firmware, which comes in the latest GeViScope software package. For more information, visit its homepage.

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Latest TopLine IP Cameras From Geutebruck
Latest TopLine IP Cameras From Geutebruck

Topping the bill at the Geutebruck Security booth was the TopLine range of high spec network cameras. Eight box cameras and a fixed dome camera offer various Megapixel resolutions, sensor types, standard color and true day/night options. Designed for license-free integration with its video security systems, these multi-standard cameras include support for the specialist security format H264CCTV which, unlike most H264 implementations, plays back fluid motion video, forwards and backwards, even frame by frame without any gaps. For easy installation, TopLine cameras can be powered either from a local supply or centrally by PoE. Sharing the limelight this year is Argus, a high speed, high precision, pan and tilt head which sports a thermal imaging camera.  With IP66/V4A weather and corrosion-proof housings, a dirt and water repellent window, a completely maintenance-free drive system as well as an optional air blast cleaner system, Argus ensures reliable, cost-effective operation even in inhospitable and inaccessible locations such as tunnels or marine and industrial environments. Other key roles at this year’s display were taken by the high end GeViScope+ video platform whose transcoding function enables dual channel streaming and dynamic live streaming for storage and network savings, and which supports all current compression standards – H.264, H264CCTV, MPEG4CCTV, M-JPEG and ONVIF compliance – as well as audio recording, for analog and IP cameras. Operated via Pilot, the flexible three-part management console with the latest computer technology and a whole new level of individual operator comfort, convenience and performance, the GeViScope+ is demonstrating Geutebruck’s highly reliable video analytics. 

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IP cameras - Expert commentary

Robust Security For The Cannabis Market Supply Chain
Robust Security For The Cannabis Market Supply Chain

It's no secret that one of the next market segments to see exceptional growth nationwide is somewhat non-traditional: cannabis. The global cannabis market is projected to reach $60 billion by 2024, according to Ameri Research, fueled by the increasing legalisation and decriminalisation across much of the United States. It is estimated that 22 million pounds of marijuana are grown each year in the United States, with 80 percent coming from California, Tennessee, Kentucky, Hawaii and Washington, according to Mother Jones. Unlike other products, this commodity is valuable from the moment the seeds go in the ground to the exchanging of money for end-user products - and at every point in between.Within large greenhouses, 360-degree cameras that show a wide field of view are essential for cannabis protection From seedlings to selling, securing every point within the supply chain is vital to the assets being distributed, and companies are now realising how lucrative this endeavor can be. Critical to the success of the industry is keeping the merchandise secure and the workers safe. In this article, we explore each part of the supply chain within the cannabis market and address ways of implementing robust security measures.  Plants, Fields And Greenhouses This is one industry where money actually grows on trees! When cannabis crops are planted either in greenhouses or in fields, security becomes critical, since the plants themselves are worth a significant amount of money. A single truckload can be worth hundreds of thousands of dollars, so securing the load is crucial to the process Producers don't want plants stolen – especially high-end varieties that garner a bigger profit when harvested and sold – and the size of the plants make theft a greater possibility. Video surveillance becomes vital at this point and can be used in a variety of ways. Within large greenhouses, single cameras that can cover a wide expanse of space, such as cameras that offer 360-degree views, are essential and can provide more coverage with less investment overall than traditional narrow field-of-view cameras.Advanced technology, such as unmanned aerial vehicles (or drones), are also being used in open fields in an effort to protect these plants.  Comprehensive video surveillance becomes the main tool for thwarting cannabis theft and addressing incidents as they arise Transportation And Protection Once the plants are mature enough to be harvested, they must be transported to a production facility where they are either dried or cured based on the needs of the grower, as well as processed and transformed into edible products to be sold at retail locations. There are already a range of companies that specialize in keeping these crop yields safe while they are transported: think Brinks armored transportation used for cash, but for cannabis. A single truckload can be worth hundreds of thousands of dollars – if not more – so securing the load is crucial to the process. Losing one of these loads can lead to large-scale losses for a producer. Surveillance equipment that can withstand sanitation standards and power-washing is paramount for effective protection After being transported, cannabis must be processed. In these environments, where strict handling processes are in place, surveillance equipment that can withstand sanitation standards and power-washing is paramount. This requires camera enclosures that are rated for resistance to high-pressure water jets, dust and vandalism/tampering. Since edible processing requires stringent regulations be followed, it becomes more critical for security managers to identify solutions that carry the NSF Mark, making them compliant with standards set forth for commercial food equipment in North America, or the HCV EU, the equivalent in Europe.  Many of these locations handle and store large amounts of cash since customers have to pay with cash Retail Protection As the final products come out of processing and go into storefronts to be sold by retailers in States that have recreational or medical facilities, there's another level of security that must be in place to protect these transactions. But careful considerations must be made. Traditional security tags cannot generally be used because of the small size of many of the end products, making it more difficult to track with tracking devices. Traditional security tags cannot generally be used because of the small size of many of the end products In this instance, comprehensive video surveillance becomes the main tool for thwarting theft and addressing incidents as they arise. In these locations, a loss prevention or security officer has to be an integral part of the team. Another consideration is the careful screening of the potential employees.  Since the federal government doesn't recognize cannabis producers and retailers, banks that are federally insured through the FDIC don't accept money from these establishments, meaning that many of these locations handle and store large amounts of cash since customers have to pay with cash. There must be security measures in place for these kinds of transactions, including the ability for video surveillance to be played back instantaneously in the event of an incident at a cash register. The cannabis market comes with a variety of challenges at each and every step of the operation, from growing to transport to production and sales. Video surveillance and business intelligence solutions are ideal for these applications, and as the market grows, more and more security companies will look to cater to the market. 

The Benefits And Challenges Of In-Camera Audio Analytics For Surveillance Solutions
The Benefits And Challenges Of In-Camera Audio Analytics For Surveillance Solutions

Audio is often overlooked in the security and video surveillance industry. There are some intercom installations where audio plays a key role, but it’s not typically thought about when it comes to security and event management. Audio takes a back seat in many security systems because audio captured from a surveillance camera can have a different impact on the privacy of those being monitored. Audio surveillance is therefore subject to strict laws that vary from state to state. Many states require a clearly posted sign indicating audio recording is taking place in an area before a person enters. Analytic information derived from audio can be a useful tool and when implemented correctly, removes any concerns over privacy or legal compliance. Audio analytics on the edge overcomes legal challenges as it never passes audio outside of the camera Focused Responses To Events Audio analytics processed in the camera, has been a niche and specialized area for many installers and end users. This could be due to state laws governing audio recording, however, audio analytics on the edge overcomes legal challenges as it never passes audio outside of the camera Processing audio analytics in-camera provides excellent privacy since audio data is analysed internally with a set of algorithms that only compare and assess the audio content. Processing audio analytics on the edge also reduces latency compared with any system that needs to send the raw audio to an on-premises or cloud server for analysis. Audio analytics can quickly pinpoint zones that security staff should focus on, which can dramatically shorten response times to incidents. Audio-derived data also provides a secondary layer of verification that an event is taking place which can help prioritise responses from police and emergency personnel. Microphones And Algorithms Having a SoC allows a manufacturer to reserve space for specialized features, and for audio analytics, a database of reference sounds is needed for comparisonMany IP-based cameras have small microphones embedded in the housing while some have a jack for connecting external microphones to the camera. Microphones on indoor cameras work well since the housing allows for a small hole to permit sound waves to reach the microphone.  Outdoor cameras that are IP66 certified against water and dust ingress will typically have less sensitivity since the microphone is not exposed. In cases like these, an outdoor microphone, strategically placed, can significantly improve outdoor analytic accuracy. There are several companies that make excellent directional microphones for outdoor use, some of which can also combat wind noise. Any high-quality external microphone should easily outperform a camera’s internal microphone in terms of analytic accuracy, so it is worth considering in areas where audio information gathering is deemed most important. Surveillance cameras with a dedicated SoC (System on Chip) have become available in recent years with in-built video and audio analytics that can detect and classify audio events and send alerts to staff and emergency for sounds such as gunshots, screams, glass breaks and explosions. Having a SoC allows a manufacturer to reserve space for specialized features. For audio analytics, a database of reference sounds is needed for comparison. The camera extracts the characteristics of the audio source collected using the camera's internal or externally connected microphone and calculates its likelihood based on the pre-defined database. If a match is found for a known sound, e.g., gunshot, explosion, glass break, or scream, an event is triggered, and the message is passed to the VMS. If a match is found for a known sound, e.g., gunshot, explosion, glass break, or scream, an event is triggered, and the message is passed to the VMS Configuring A Camera For Audio Analytics Audio DetectionThe first job of a well-configured camera or camera/mic pair is to detect sounds of interest while rejecting ancillary sounds and noise below a preset threshold. Each camera must be custom configured for its particular environment to detect audio levels which exceed a user-defined level. Since audio levels are typically greater in abnormal situations, any audio levels exceeding the baseline set levels are detected as being a potential security event. Operators can be notified of any abnormal situations via event signals allowing the operator to take suitable measures. Finding a baseline of background noise and setting an appropriate threshold level is the first step. Noise ReductionA simple threshold level may not be adequate enough to reduce false alarms depending on the environment where a camera or microphone is installed. Noise reduction is a feature on cameras that can reduce background noise greater than 55dB-65dB for increased detection accuracy. Installers should be able to enable or disable the noise reduction function and view the results to validate the optimum configuration during setup. With noise reduction enabled, the system analyzes the attenuated audio source. As such, the audio source classification performance may be hindered or generate errors, so it is important to use noise reduction technology sparingly. Audio Source ClassificationIt’s important to supply the analytic algorithm with a good audio level and a high signal-to-noise ratio to reduce the chance of generating false alarms under normal circumstances. Installers should experiment with ideal placement for both video as well as audio. While a ceiling corner might seem an ideal location for a camera, it might also cause background audio noise to be artificially amplified. Many cameras provide a graph which visualises audio source levels to allow for the intuitive checking of noise cancellation and detection levels. Messages And EventsIt’s important to choose a VMS that has correctly integrated the camera’s API (application programming interface) in order to receive comprehensive audio analytic events that include the classification ID (explosion, glass break, gunshot, scream). A standard VMS that only supports generic alarms, may not be able to resolve all of the information. More advanced VMS solutions can identify different messages from the camera. Well configured audio analytics can deliver critical information about a security event, accelerating response times and providing timely details beyond video-only surveillance.  Analytics take privacy concerns out of the equation and allow installers and end users to use camera audio responsibly. Hanwha Techwin's audio source classification technology, available in its X Series cameras, features three customizable settings for category, noise cancellation and detection level for optimum performance in a variety of installation environments.

Video Surveillance Technologies Evolve To Meet Data And Cybersecurity Challenges
Video Surveillance Technologies Evolve To Meet Data And Cybersecurity Challenges

The Internet of Things (IoT) is having a significant and ever-changing impact on the way we view video security. Today, cameras are expected to be so much more than devices with which to simply capture images; they need to be far smarter than that. These future-facing cameras are becoming an integral part of the vast digital connectivity infrastructure, delivering a parallel performance as intelligent sensors with the ability to extract the kind of invaluable data that helps businesses make improvements in the area of video security, and beyond. However, as the list of possibilities grows, so too does the risk of unauthorized access by cybercriminals. We should all be aware that a single weak link in a communications infrastructure can give hackers access to sensitive data. That’s the bad news. Safeguarding Data And Utilizing Deep Learning The good news is cybercrime can be avoided by employing a data security system that’s completely effective from end-to-end. One technological advancement that the trend-spotters are predicting will become part of the video security vocabulary is ‘deep learning’ Once this level of safeguarding is in place you can begin to confidently explore the technologies and trends happening now, and those on the horizon. So, what will be having an influence on surveillance in 2018? Well, according to IHS Markit, one technological advancement that the trend-spotters are predicting will become part of the video security vocabulary is ‘deep learning’, which uses algorithms to produce multiple layers of information from the same piece of data, therefore emulating the way the human brain absorbs innumerable details every second. In Europe, GDPR compliance will also be a big talking point as new principles for video surveillance data collection, use limitation, security safeguards, individual participation and accountability are introduced. And, as the popularity – and misuse – of drones continues to rise, the recent developments in drone detection technology will be particularly welcomed by those whose primary concern relates to large areas, such as airport perimeter security. The Future Of 'Smart' Video Analytics An important feature of today’s intelligent cameras is the ability to provide smart video analytics. The Bosch ‘i’ series, for example, offers a choice of formats – Essential Video Analytics and Intelligent Video Analytics. Essential Video Analytics is geared toward regular applications such as small and medium businesses looking to support business intelligence (e.g. inter-network data transfer), large retail stores and commercial buildings for advanced intrusion detection, enforcing health and safety regulations (no-parking zones or detecting blocked emergency exits) and analyzing consumer behavior. The camera-based, real-time processing can also be used to detect discarded objects, issue loitering alarms and detect people or objects entering a pre-defined field. Intelligent Video Analytics provides additional capabilities. It is designed for demanding environments and mission-critical applications, such as the perimeter protection of airports, critical infrastructures and government buildings, border patrol, ship-tracking and traffic-monitoring (e.g. wrong-way detection, traffic-counts and monitoring roadsides for parked cars: all vital video security solutions). An important feature of today’s intelligent cameras is the ability to provide smart video analytics Intelligent Video Analytics can also differentiate between genuine security events and known false triggers, such as challenging environments created by snow, wind (moving trees), rain, hail, and water reflections. For more expansive areas, like an airport perimeter fence, the system has the range and capability to provide analysis over large distances. And, if a moving camera is employed, it is also possible to capture data on objects in transit when used in conjunction with the Intelligent Tracking feature. For roadside use, Intelligent Video Analytics systems, such as the Bosch MIC IP range, are resistant to vibrations and can still operate in extreme weather conditions, continuing to detect objects in heavy rain or snow.  Evolving Cameras Past Surveillance It’s becoming ever clearer that the IoT is transforming the security camera from a device that simply captures images, into an intelligent sensor that plays an integral role in gathering the kind of vital business data that can be used to improve commercial operations in areas beyond security. For example, cities are transitioning into smart cities. The capabilities of an intelligent camera extend to the interaction and sharing of information with other devices (only those you have appointed) With intelligent video security cameras at the core of an urban infrastructure smart data can be collected to optimize energy consumption via smart city lighting that responds to crowd detection and movement. Cameras can also be used to improve public transport by monitoring punctuality and traffic flow based on queue lengths, with the ability to control traffic lights an option should a situation require it. As the urban sprawl continues and this infrastructure grows, the need for more knowledge of its use becomes more essential, necessitating the monitoring technology developed for use by human operators to evolve into smart sensing technology, that no longer just provides video feeds, but also uses intelligent analytics and sophisticated support systems. These systems filter out irrelevant sensor data and present only meaningful events, complete with all relevant contextual data to operators to aid their decision-making. Expanding The Video Security Camera Network Today, video analytics technology has tangible benefits for human operator surveillance, and delivers KPIs that are highly relevant to transport operators, planners and city authorities. As an existing infrastructure, a video security camera network can be improved and expanded by installing additional applications rather than replaced. From a business perspective, that means greater value from a limited investment. Thereafter, the capabilities of an intelligent camera extend to the interaction and sharing of information with other devices (only those you have appointed), image and data interpretation, and the ability to perform a variety of tasks independently to optimize both your safety and business requirements. The fact is, cameras see more than sensors. Sounds obvious, but a conventional sensor will only trigger an alarm when movement is detected, whereas a camera can also provide the associated image and information like object direction, size, color, speed or type, and use time stamps to provide historical information regarding a specific location or event. Based on this evidence, the video security camera of today is more than ready for the challenges of tomorrow.