User:Martin.vojtek1977/sandbox

Virtual Intruder in Real-time Detection
'''VIRD is a system that is capable of testing real data outputs from connected detectors. The system can be tested against real intruders or against virtual intruders generated by the system. ''' This technology tests real-time security settings. Call of the VIRD alarm is subject to the same settings as when detecting real intruders. There is no difference in whether the test is done using real intruders (figurant) or virtual objects. The result will be the same. Real and virtual intruders must be the same size - the same volume.

VIRD technology can provide the security system with a variety of 3D objects, such as a human figure, animal, car, vegetation, flying drones, birds, etc, to test the system. These 3D objects then simulate real movements which could include walking, running, crawling or other types of movement. Simultaneously, various weather conditions like fog, rain or snow can be simulated into the system.

The advantage of the system is the implementation of demanding tests, which can in fact be very difficult to arrange. With VIRD, the tests can run several times a day to verify the system's real structural settings. It can also test the reliability of the entire system against the current security system setting. The results of each test may be different depending on the actual condition of each detector (detector blocked by obstacle, weathering - fog, rain, snow, dirty detector, detector shifting, detector cover, etc.).

At any time, these tests can be carried out to generate a response to the functionality or malfunction of the security system. Frequent repetitions of VIRD tests can prevent false negative situations in which an intruder will not be detected in real time. At the same time, such a test can test the entire security system to resist false positive situations where the security system unnecessarily launches a false alarm in real time.

VIRD tests can be prepared in advance. Tests may include attempts by virtual intruders to cross a fence and/or intrusion into guarded areas, for example by crawling. Attacks can be carried out in one moment, from different places. It is also possible to test the whole system to ignore false alarms caused by the movement of smaller animals or birds. In addition, sensitivity of detection can be tested, for example, in fog simulation.

Advanced VIRD technology can in itself generate a series of penetration tests to search for vulnerabilities. The security system can then be refined after the test results.

This is a very advanced testing method for security systems. This test with its results corresponds to real tests. VIRD tests will dramatically save money compared to the traditional physical tests of the security system. It is also useful in situations where real-time physical tests cannot be performed.

VIRD tests first used the accur8vision security system (www.accur8vision.com). It is a volume detection system based on LiDAR technology. VIRD tests provide information on correct system setup and individual laser detectors in real time.

VIRD - Virtual Intruder in Real-time Detection
VIRD is a system that is capable of testing real data outputs from connected detectors. The system can be tested against real intruders or against virtual intruders generated by the system. This technology tests real-time security settings. Call of the VIRD alarm is subject to the same settings as when detecting real intruders. There is no difference in whether the test is done using real intruders (figurant) or virtual objects. The result will be the same. Real and virtual intruders must be the same size - the same volume.

VIRD technology can provide the security system with a variety of 3D objects, such as a human figure, animal, car, vegetation, flying drones, birds, etc, to test the system. These 3D objects then simulate real movements which could include walking, running, crawling or other types of movement. Simultaneously, various weather conditions like fog, rain or snow can be simulated into the system.

The advantage of the system is the implementation of demanding tests, which can in fact be very difficult to arrange. With VIRD, the tests can run several times a day to verify the system's real structural settings. It can also test the reliability of the entire system against the current security system setting. The results of each test may be different depending on the actual condition of each detector (detector blocked by obstacle, weathering - fog, rain, snow, dirty detector, detector shifting, detector cover, etc.).

At any time, these tests can be carried out to generate a response to the functionality or malfunction of the security system. Frequent repetitions of VIRD tests can prevent false negative situations in which an intruder will not be detected in real time. At the same time, such a test can test the entire security system to resist false positive situations where the security system unnecessarily launches a false alarm in real time.

VIRD tests can be prepared in advance. Tests may include attempts by virtual intruders to cross a fence and/or intrusion into guarded areas, for example by crawling. Attacks can be carried out in one moment, from different places. It is also possible to test the whole system to ignore false alarms caused by the movement of smaller animals or birds. In addition, sensitivity of detection can be tested, for example, in fog simulation.

Advanced VIRD technology can in itself generate a series of penetration tests to search for vulnerabilities. The security system can then be refined after the test results.

This is a very advanced testing method for security systems. This test with its results corresponds to real tests. VIRD tests will dramatically save money compared to the traditional physical tests of the security system. It is also useful in situations where real-time physical tests cannot be performed.

VIRD tests first used the accur8vision security system (www.accur8vision.com). It is a volume detection system based on LiDAR technology. VIRD tests provide information on correct system setup and individual laser detectors in real time.