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Based on Steinpsilas lemma, we use relative entropy as an error exponent measure to study the detection performance of Neyman Pearson (NP) detectors. Both multiple-input-multiple-output (MIMO) radar and phased-array radar are investigated. We introduce the notion of diversity order to get the insights of results. For a bistatic radar where the transmitters and receivers are deployed separately with...
This paper addresses a new perspective on the exploitation of diversity resembling recent seminal proposals with multiple antennas known as MIMO radar. Our focus pursues similar advantages as spatial MIMO systems but intending to achieve the desired resistance over fading or/and SNR increase without relying on multiple antennas. We design an OFDM-CDM waveform well inspired in modern communications...
MIMO (multiple-input multiple-output) radar refers to an architecture that employs multiple, spatially distributed or colocated transmitters and receivers. The widely spaced antenna structure suggests unique features that set MIMO radar apart from other radar systems, making it strongly related to MIMO communications. The widely separated transmit/receive antennas capture different aspects of the...
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