Long-range active infrared imaging

Bosch Security Systems has announced the GVS1000 Long Range Imaging System, claimed to be the security industry's longestrange active infrared imaging system. It provides high-quality images at 1km and enables full detection, classification, recognition and identification performance in total darkness. The system has integrated day/night, pan/tilt/zoom.
February 1, 2012 Read time: 1 min
517 Bosch Security Systems has announced the GVS1000 Long Range Imaging System, claimed to be the security industry's longest-range active infrared imaging system. It provides high-quality images at 1km and enables full detection, classification, recognition and identification performance in total darkness. The system has integrated day/night, pan/tilt/zoom.

The GVS1000 is equipped with advanced optics, such as an IRcorrected, long-range lens capable of x60 optical zoom with night vision capabilities beyond 1.2km. 

With a focal length of 12.5-750mm or 25-1,500mm (with double function engaged), the lens works together with the high-performance Dinion XF sensor to produce ultrahigh quality images at long distances in day and night conditions. The GVS1000 uses two sets of active infrared illuminators for both long- and medium-to-short-range night-time imaging, eliminating safety concerns commonly associated with laser-based infrared systems. Infrared illumination can be controlled manually or can be configured to turn on and off automatically using a photocell.
Detection, Monitoring & Machine Vision

For more information on companies in this article

Related Content

  • Coded exchanges
    July 24, 2012
    For many, Ethernet- and IP-based networks are the cast-iron solution to ITS's communications needs. However, there remain issues from manufacturer to manufacturer with interpretation of what are supposed to be common standards The 'promise' of Ethernet was that different devices such as IP video cameras and traffic signals could be easily integrated into communications networks, simplifying the process of transporting data over copper, fibre or wirelessly. However, although Ethernet devices have come to pre
    Read More
  • Sensor technology advances increases ITS opportunities
    March 16, 2016
    Basler’s Enzio Schneider explains why advances in CMOS technology provides new opportunities for vision-based ITS applications. Since the beginning of 2015, or even before, it seems obvious that all roads in vision-based ITS applications lead in one technological direction – CMOS. Initially perceived as a trend in vision technology, it has taken a step towards status as the new benchmark with Sony’s announcement to discontinue their CCD production. CMOS sensor technology has become the future for industrial
    Read More
  • Nedap’s new RFID reader offers long range identification
    March 18, 2016
    Automatic vehicle and parking detection specialist Nedap has launched the uPASS Target RFID reader which is said to offer long-range identification using the Rain RFID (UHF EPC Gen II) Standard. The device identifies vehicles and drivers travelling speed of up to 200km/h (125mph) at a distance of up to 10m (33ft) by using passive UHF RFID technology (±900 MHz) and its circular polarised antenna offers orientation freedom when offering tags.
    Read More
  • Debating the future development of ANPR
    July 31, 2012
    What future is there for automatic number plate recognition? Will it be supplanted by electronic vehicle identification, or will continuing development maintain the technology's relevance? In recent years, digitisation and IP-based communication networks have allowed Automatic Number Plate Recognition (ANPR) to achieve ever-greater utility and a commensurate increase in deployments. But where does the technology go next - indeed, does it have a future in the face of the increasing use of, for instance, Dedi
    Read More

Highlighted Content