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Unknown Signal Detection in Linear Dynamical System Noise

Citation Author(s):
Gabriel Ford, Timothy Hu, Donald Bucci, Benjamin Foster
Submitted by:
Gabriel Ford
Last updated:
11 October 2019 - 10:58am
Document Type:
Poster
Document Year:
2019
Event:
Presenters:
Gabriel Ford
Paper Code:
45
 

A machine learning approach to detecting unknown signals in time-correlated noise is presented. In the proposed approach, a linear dynamical system (LDS) model is trained to represent the background noise via expectation-maximization (EM). The negative log-likelihood (NLL) of test data under the learned background noise LDS is computed via the Kalman filter recursions, and an unknown signal is detected if the NLL exceeds a threshold. The proposed detection scheme is derived as a generalized likelihood ratio test (GLRT) for an unknown deterministic signal in LDS noise. In simple additive white Gaussian noise (AWGN), the proposed scheme reduces to an energy detector. However, experimental results on a wireless software defined radio (SDR) testbed demonstrate that the proposed scheme substantially outperforms energy detection in a time-correlated noise background.

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