Flexible security solution makes life difficult for burglars

The tiny sensors are networked and communicate even the smallest of disturbances to the analyzer unit that is contained in a microcontroller. The signal arriving from the sensors is processed and automatically checked to filter out any false alarms, such as those triggered by wind affecting the position of the fence. “The signal patterns depend on the nature of the disturbance to the magnetic field. The work we have carried out so far lets us distinguish many different kinds of vibrations and changes to the magnetic field and to identify whether the signal was caused by a human, the wind, a car or an animal,” explains Hartmann. The sensor cable system can therefore be used to check whether farm animals are still grazing the pasture or the family dog is still in the back garden — all that is needed is for the animals to have a small piece of metal attached to their collars.

The research team uses mathematical models to carry out simulations of typical magnetic field disturbances on test fences. The results are then used to program the central analyzer unit, essentially teaching it to identify and automatically attribute the signals received to specific types of disturbance, which enables the system to filter out false alarms. “Our aim is to further refine the sensor technology,” explains physicist Haibin Gao, a member of Hartmann’s research team. If the system registers a critical situation, it sends a message via a Bluetooth connection to a smart phone or tablet. “The system identifies the exact location of the disturbance, which is a very useful feature when dealing with large plots of land,” says Gao.

As the sensor cable does not need a lot of power, it could be driven by solar generators. “Fences and, say, gateways could be secured using just a single system, with the cable installed above ground in the one case and below ground and the other. The cable can also be split up into different sections, making installation simpler and more flexible,” says Hartman. The contactless sensors are essentially wear-free and measurements are independent of weather conditions. Rain or fog do not affect the system. “The measurements are also unproblematic from the point of view of privacy and data security, as no information is stored. The system doesn’t violate the privacy of neighbors and it doesn’t provide a target for hackers,” explains Hartmann. The sensor system can also be connected to cameras or lighting that are activated whenever a disturbance is detected.

“If these sensor cables are going to be used in the private sector, a low-cost method of manufacture will need to be found. At HANNOVER MESSE [to be held 25-29 April] we are looking for partners with whom we can develop the system into a marketable product,” says Hartmann. Several of the sensor systems that his group has developed are already being deployed in traffic management systems, such as those in airports.