A distributed transmit beamforming synchronization strategy for multi-element radar systems

A distributed transmit beamforming synchronization strategy for multi-element radar systems

The distributed transmit beamforming has recently been discussed as an energy-effective technique in wireless communication systems. A common ground of various techniques is that the destination node transmits a beacon signal or feedback to assist source nodes to synchronize signals. However, this a...

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Bibliographic Details
Published in:International journal of electronics Vol. 104; no. 2; pp. 218 - 227
Main Authors: Xiao, Manlin, Li, Xingwen, Xu, Jikang
Format: Journal Article
Language:English
Published: Abingdon Taylor & Francis 01-02-2017
Taylor & Francis LLC
Subjects:
beacon signal
Beacons
Beamforming
Delay
detection and estimation
Distributed transmit beamforming
Electrical engineering
Mathematical models
multi-element radar
Parameter estimation
Propagation
Radar
Radar systems
Synchronism
Synchronization
synchronization scheme
Wireless communications
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Summary:The distributed transmit beamforming has recently been discussed as an energy-effective technique in wireless communication systems. A common ground of various techniques is that the destination node transmits a beacon signal or feedback to assist source nodes to synchronize signals. However, this approach is not appropriate for a radar system since the destination is a non-cooperative target of an unknown location. In our paper, we propose a novel synchronization strategy for a distributed multiple-element beamfoming radar system. Source nodes estimate parameters of beacon signals transmitted from others to get their local synchronization information. The channel information of the phase propagation delay is transmitted to nodes via the reflected beacon signals as well. Next, each node generates appropriate parameters to form a beamforming signal at the target. Transmit beamforming signals of all nodes will combine coherently at the target compensating for different propagation delay. We analyse the influence of the local oscillation accuracy and the parameter estimation errors on the performance of the proposed synchronization scheme. The results of numerical simulations illustrate that this synchronization scheme is effective to enable the transmit beamforming in a distributed multi-element radar system.
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content type line 23
ISSN:0020-7217
1362-3060
DOI:10.1080/00207217.2016.1196749