Adaptive Equalization Super-Resolution Time Delay Estimation with High Accuracy and Low Complexity

Abstract

An adaptive multipath equalization time delay estimation (METDE) algorithm is presented to estimate the time delays of received signals through a multipath channel with high accuracy and resolution. The proposed approach is developed utilizing a sequential minimization of a square error function that is updated according to the difference of received data and pre-known model at each moment. The METDE algorithm is uniquely established through a multi-tap equalizer structure and without using any complex optimization or matrix inversion operation. Thus, it will have lower complexity and better compatibility with practical hardware implementation in the real-time systems. The mathematical formulation and the accuracy analyses of the METDE algorithm are derived in the paper through numerical simulations and experimental tests. Providing 95% improved resolution compared to the Fourier limit, the proposed approach is a good candidate in low-frequency applications to mitigate the Fourier limit on the range resolution and achieve higher penetration in lossy environments.