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  • Written by NewsServices.com
Suppose it were possible to detect vibrations in the physical world and use sensory indexing to determine the cause of the vibrations. The vibration detection and ranging sensory technologies apply this concept in an expanded capability rather than in conventional sound navigation ranging systems. This technology has found its application in the real-time detection of objects, motion, and events within public spaces such as cities. The vibration detection system relies on establishing a network that resembles a gapless fabric running throughout the city. Each thread of the fabric links to a vibration detection system such that any form of vibration is easy to detect and map in a real-time process. The vibration detection system will identify the location index of the cause of vibration and calculate its approximate time of occurrence.



The ideal method of comprehending how the vibration detection systems work is to represent the vibration detection and ranging sensory technologies as a gapless fabric. All threads within the fabric form interconnected networks transmitting ripple waves. This system relies on complementary densification of the optical fiber connectivity system in cities. The fiber Internet cables become the threads of the gapless fabric, with each extreme edge of the fiber connectivity cables representing the edge of the gapless fabric. Any moving object or event becomes a concentration of radio waves on the continuous mesh. It then becomes possible to triangulate the exact location and time of the cause of vibration on the gapless mesh in a real-time mapping process. A moving vehicle, therefore, becomes a point of concentrated moving disturbance on the continuous mesh. This technology leaves the exploitation of such data into a wide variety of uses.

Depending on the geometry and velocity of the moving ripple of waves, it is possible to predict the trajectory and direction of the moving vehicle in a real-time map at a specific time. Control systems can therefore anticipate collisions and provide a guidance system against the same. Traffic regulations within a city set up is a sensitive operation, and vibration detection and ranging technology systems are the keys to maximum utilization of public space within a safe jurisdiction. Vibration detection and ranging systems act as a sixth sense that anticipates future occurrences by carefully mapping real-time events within a predefined location.

The vehicle detection technologies incorporated in these systems are anonymous for privacy assurances. In any case, this technology cannot detect actual faces or recognize voices disconnected to a deployed system of camera networks. An integrated public visual recognition system coupled with the vibration detection and ranging sensors can produce distinct imaging that links the indexed object causing vibration to its corresponding image in a real-time location and time. There are, however, strict privacy limitations to this application in the physical world. The ideal way to achieve proper supervision in vehicle detection without violating privacy policies makes the whole process anonymous. The result is a graded vehicle detention system that identifies vehicles as moving objects within the gapless fabric, generating specific vibrations and mapped in a real-time imaging system.