Feasibility analysis of non-orthogonal waveforms for multiple input multiple output passive radar application

New non-orthogonal multiple access technology is proposed with the development of 5G, which is expected to support higher spectrum efficiency and massive terminal access, it enables the communication system to achieve better bit error rate performance and alleviate the spectrum congestion problem ef...

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Bibliographic Details
Published in:Journal of engineering (Stevenage, England) England), 2019-11, Vol.2019 (21), p.7484-7488
Main Authors: Wang, Qing, Li, Tong, Dou, Tongdong, Zhu, Weifeng
Format: Article
Language:English
Subjects:
5G nonorthogonal signal
bit error rate performance
code division multiple access
error statistics
higher spectrum efficiency
IET International Radar Conference (IRC 2018)
interference suppression
massive terminal access
MIMO communication
MIMO radar
multi-access systems
multiple input multiple output passive radar application
new nonorthogonal multiple access technology
nonorthogonal SCMA signals
nonorthogonal waveform
orthogonal code division multiple access signals
orthogonal codes
orthogonal multiple input multiple output radar waveform design
passive radar
passive radar illumination sources
potential passive radar illumination source
radar signal processing
radio links
radio receivers
radiofrequency interference
sparse code multiple access
spectrum congestion problem
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Summary:New non-orthogonal multiple access technology is proposed with the development of 5G, which is expected to support higher spectrum efficiency and massive terminal access, it enables the communication system to achieve better bit error rate performance and alleviate the spectrum congestion problem effectively under limited resources. With the design of spectrum sharing for radar and communication getting more attention, 5G non-orthogonal signal has become potential passive radar illumination source. In this article, an orthogonal multiple input multiple output (MIMO) radar waveform design metric by minimising the integration sidelobe level, is introduced firstly. Then based on sparse code multiple access (SCMA) technology, the non-orthogonal waveform is designed as the passive radar illumination sources. The distance and Doppler resolution of non-orthogonal waveform are evaluated by a more generalised MIMO ambiguity function. Simulation results demonstrate that non-orthogonal SCMA signals have competitive performance with orthogonal code division multiple access signals.
ISSN:2051-3305
2051-3305
DOI:10.1049/joe.2019.0582