Blind Calibration of Sparse Arrays for DOA Estimation with Analog and One-bit Measurements

Conference paper (2019)

Authors

K. Nambur Ramamohan Signal Processing Systems - EEMCS , Microflown Technologies, BV Arnhem
S.P. Chepuri Indian Institute of Science
Daniel Fernandez Comesana Microflown Technologies, BV Arnhem
G. Leus Signal Processing Systems - EEMCS
Research Group
Signal Processing Systems (EEMCS) (TU Delft)
Copyright: © 2019 K. Nambur Ramamohan, S.P. Chepuri, Daniel Fernandez Comesana, G.J.T. Leus
DOI: https://doi.org/10.1109/ICASSP.2019.8682592
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Published Date

01-05-2019

Language

English

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Faculty

Electrical Engineering, Mathematics and Computer Science

Department

Microelectronics

Research Group

Signal Processing Systems

Abstract

In this paper, the focus is on the gain and phase calibration of sparse sensor arrays to localize more sources than the number of physical sensors. The proposed technique is a blind calibration method as it does not require any calibrator sources. Joint estimation of the gain errors, phase errors, and source directions is a complicated non-convex optimization problem, which is transformed into a convex optimization problem by exploiting the underlying algebraic structure. It is shown that the developed solver is suitable for analog as well as one-bit measurements. Numerical experiments based on sparse rulers are provided to illustrate the developed theory.

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