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The focus of this paper is on the detection of moving targets with a Forward Scatter Radar system. More precisely, a non-coherent detection strategy is considered and theoretical closed-form expressions of the probability of false alarm and of the probability of detection are derived in order to allow performance prediction and support system design. Finally the theoretical contribution is verified...
In this paper we investigate the possibility to develop a passive radar system for mid-range air target surveillance using, as illuminator of opportunity, a high EIRP level geostationary broadcast transmitter. These satellites are being introduced recently for Satellite Mobile Digital TV broadcast purpose. Since they are designed to allow mobile users to receive satellite TV without large antennas,...
The paper presents a design procedure for a multistatic passive radar system, that aims at its performance optimization, in terms of 3D positioning accuracy. Specifically, the proposed procedure considers the main features of the considered air traffic control scenario and the main physical and geometrical features of the passive radar receivers and guides the designer to select the geometry that...
In the present paper, we derive the Cramer-Rao Lower Bound (CRLB) with uncertain observations, namely for Pd<;1, for the 2D position measurements of a multistatic passive radar, to optimize the geometry of the system. This is an extension of the enumeration method CRLB to the multisensor case, where it is considered that the multiple receivers could detect or miss the target independently of one...
Multistatic passive radar systems offer many advantages in terms of coverage and sensitivity of the positioning accuracy with respect to the single bistatic passive radar. However the performance of such a system is largely dependent on the geometry. Its design has to deal with the additional complexity of selecting both the optimum transmitters among the ones available and the optimum receiver position...
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