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Radar waveform optimization for ambiguity function properties and dynamic spectral mask requirements based on communication receiver locations | IEEE Conference Publication | IEEE Xplore

Radar waveform optimization for ambiguity function properties and dynamic spectral mask requirements based on communication receiver locations

Publisher: IEEE

Abstract:

A dynamically determined spectral mask for radar transmission, based on changing wireless communication handset locations and maximum acceptable handset interference powe...View more

Abstract:

A dynamically determined spectral mask for radar transmission, based on changing wireless communication handset locations and maximum acceptable handset interference power levels, is used to optimize the radar waveform. The alternating projections optimization is based on the spectral mask and a minimization template for the ambiguity function, which provides range/Doppler combinations for which the ambiguity should be minimized. This optimization is continually re-performed as the spectral mask is adjusted based on handset location changes. Several different scenarios are demonstrated in which this optimization is shown to be successful. This algorithm will use information about communication handsets provided through an ad-hoc network to tune the radar waveform.
Date of Conference: 15-18 January 2017
Date Added to IEEE Xplore: 27 March 2017
ISBN Information:
Electronic ISSN: 2164-2974
Publisher: IEEE
Conference Location: Phoenix, AZ, USA

References

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