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An Experimental Study of Passive Bistatic Radar Using Uncooperative Radar as a Transmitter
IEEE Geoscience and Remote Sensing Letters, 2015This letter proposes a signal processing method of passive bistatic radar (PBR) exploiting an uncooperative radar as an illuminator. Compared with other opportunity illuminators, the transmitting signal of a radar usually has a better ambiguity function, which leads to a higher range resolution. Two channels are needed in PBR system.
Yasen Wang +3 more
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An exact Bayesian detector for multistatic passive radar
2016 50th Asilomar Conference on Signals, Systems and Computers, 2016An exact Bayesian likelihood ratio is derived for detecting the presence of a rank-2 signal in M > 2 channels of noisy receiver data under the assumption that the signal is known to be present on K = 2 of the channels (reference channels). The objective of the test is thus to ascertain whether the signal is also present on the other channels ...
Stephen D. Howard +2 more
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A Passive Radar Deployment Method
Proceedings of the 2023 7th International Conference on Electronic Information Technology and Computer Engineering, 2023openaire +1 more source
2017
This chapter is an introduction to passive synthetic aperture radar (SAR) using global navigation satellite systems (GNSS), as illuminators of opportunity. Such systems include the global positioning system (GPS), the Russian GLONASS system, or the forthcoming Galileo constellation.
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This chapter is an introduction to passive synthetic aperture radar (SAR) using global navigation satellite systems (GNSS), as illuminators of opportunity. Such systems include the global positioning system (GPS), the Russian GLONASS system, or the forthcoming Galileo constellation.
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Introduction to passive and multistatic radar
2017Due to the recently renewed interest inside the radar community, bistatic and multistatic radar are again a hot topic of research, despite the fact that their history is almost as old as the history of radar itself. This history is also quite well documented and revised.
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Passive radar interference from vegetation in Doppler radars
RadioengineeringProblem statement. Detecting low-speed small targets against the background of passive radar interference from the underlying surface is an urgent non-trivial task. In such conditions, various filtering and threshold adaptation methods are used to increase the detection efficiency and stabilize the probability of false alarms, assuming the presence of ...
T.A. Marshalov +3 more
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2017
In distributed sensing applications, the nodes of a sensor network cooperatively detect and localize targets of interest. In particular, active multiple-input multipleoutput (MIMO) radar (AMR) uses multiple transceivers to transmit separable signals and receive the scattered returns, while passive MIMO radar (PMR) uses multiple receivers to receive the
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In distributed sensing applications, the nodes of a sensor network cooperatively detect and localize targets of interest. In particular, active multiple-input multipleoutput (MIMO) radar (AMR) uses multiple transceivers to transmit separable signals and receive the scattered returns, while passive MIMO radar (PMR) uses multiple receivers to receive the
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Illuminator of opportunity selection for passive radar
2017 IEEE 7th International Workshop on Computational Advances in Multi-Sensor Adaptive Processing (CAMSAP), 2017Yang Li 0047, Qian He 0002, Rick S. Blum
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