Discrete-Time ZND Algorithms for Time-Dependent LQ Decomposition Applied to Sound Source Localization

2021 11th International Conference on Intelligent Control and Information Processing (ICICIP) Pub Date : 2021-12-03 DOI:10.1109/ICICIP53388.2021.9642202

Jinjin Guo, Yunong Zhang

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Abstract

To solve discrete-time LQ decomposition (DTLQD) problem, a 5-step Adams-Bashforth-type (5SAB-type) discrete-time zeroing neural dynamics (DTZND) algorithm is proposed by combining 5-step Adams-Bashforth (AB) method with continuous-time zeroing neural dynamics (CTZND) model. For comparison, general 4-step and 3-step Zhang et al. discretization (ZeaD) formulas are also presented and used to discretize the CTZND model. The corresponding 4-step ZeaD-type (4SZeaDtype) and 3-step ZeaD-type (3SZeaD-type) DTZND algorithms are thus developed. Theoretical analyses and results show that the proposed 5SAB-type DTZND algorithm has higher computational precision than the 4SZeaD-type and 3SZeaD-type DTZND algorithms. Two numerical examples further validate the availability of the three DTZND algorithms and the superiority of the proposed 5SAB-type DTZND algorithm. Moreover, the proposed DTZND algorithms are applied to the sound source localization based on the time difference of arrival (TDOA) technique.

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时变LQ分解的离散ZND算法在声源定位中的应用

为了解决离散时间LQ分解(DTLQD)问题，将5步Adams-Bashforth (AB)方法与连续时间归零神经动力学(CTZND)模型相结合，提出了一种5步Adams-Bashforth-type (5ab -type)离散时间归零神经动力学(DTZND)算法。为了比较，Zhang等人还提出了一般的4步和3步离散化(ZeaD)公式，并将其用于CTZND模型的离散化。由此提出了相应的4步ZeaD-type (4SZeaDtype)和3步ZeaD-type (3SZeaD-type) DTZND算法。理论分析和结果表明，5ab型DTZND算法比4szead型和3szead型DTZND算法具有更高的计算精度。两个算例进一步验证了三种DTZND算法的有效性以及所提出的5ab型DTZND算法的优越性。并将所提出的DTZND算法应用于基于到达时差(TDOA)技术的声源定位。

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2021 11th International Conference on Intelligent Control and Information Processing (ICICIP)

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