Title :
Localization accuracy of multi-mode emitters in target-dense scenarios
Author :
Oispuu, M. ; Sciotti, Massimo
Author_Institution :
Dept. Sensor Data & Inf. Fusion, Fraunhofer FKIE, Wachtberg, Germany
Abstract :
This paper extends previous work on the prediction of passive emitter localization accuracy to the case of multiple closely-spaced sources that emit agile, pulsed waveforms. The proposed approach is based on the iterative calculation of the multi-source Cramér-Rao Bound, conditioned by the probability of generating a measurement for a given source at a specific time instant. Such probability is derived from the probability of intercepting a pulse train by a frequency scanning receiver when multiple, eventually interfering, signals impinge on the receiving antennas. The proposed approach is compared with well-known lower bounds. Comparable results are yielded for well separated emitters in ideal conditions, whereas imperfect, realistic observation conditions clearly privilege the use of the newly proposed approach.
Keywords :
iterative methods; probability; radar antennas; radar interference; radar signal processing; receiving antennas; agile radar; agile waveforms; frequency scanning receiver; interception probability; iterative calculation; multimode emitters; multisource Cramér-Rao bound; passive emitter localization accuracy prediction; pulsed waveforms; receiving antennas; target-dense scenarios; Accuracy; Estimation; Radar tracking; Receivers; Target tracking; Vectors; Agile Radar; Cramér-Rao bound; Interception Probability; Multiple Emitter Localization; Pulse Train;
Conference_Titel :
Information Fusion (FUSION), 2013 16th International Conference on
Conference_Location :
Istanbul
Print_ISBN :
978-605-86311-1-3
