Efficient range-doppler processing for random stepped frequency radar in sutomotive applications

Hourani, A, Evans, R, Moran, W, Sithamparanathan, K and Parampalli, U 2017, 'Efficient range-doppler processing for random stepped frequency radar in sutomotive applications', in Proceedings of the IEEE 85th Vehicular Technology Conference (VTC 2017), Sydney, Australia, 4-7 June 2017, pp. 1-7.


Document type: Conference Paper
Collection: Conference Papers

Title Efficient range-doppler processing for random stepped frequency radar in sutomotive applications
Author(s) Hourani, A
Evans, R
Moran, W
Sithamparanathan, K
Parampalli, U
Year 2017
Conference name VTC 2017
Conference location Sydney, Australia
Conference dates 4-7 June 2017
Proceedings title Proceedings of the IEEE 85th Vehicular Technology Conference (VTC 2017)
Publisher IEEE
Place of publication United States
Start page 1
End page 7
Total pages 7
Abstract Stepped frequency radar technology, where the transmit waveform consists of a sequence of tones, has long been suggested for cost-effective and high-resolution applications. One recent use of this technology is in automotive application where, in addition to cost-effectiveness, a random stepped frequency (RSF) waveform can significantly reduce the interference between vehicles. In this paper we provide a generic framework for the range and Doppler measurements for multiple targets. We further suggest two possible methods for reducing the computational complexity of RSF waveforms processing, which is important for future automotive applications.
Subjects Wireless Communications
Keyword(s) Automotive radars
stepped frequency radar
high resolution radar
radar interference
DOI - identifier 10.1109/VTCSpring.2017.8108414
Copyright notice © 2017 IEEE
ISBN 9781509059324
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