Cleansed PHAT GCC based sound source localization

ICCAS 2010 Pub Date : 2010-12-17 DOI:10.1109/ICCAS.2010.5670119

Sangmoon Lee, Youngjin Park, Youn-sik Park

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引用次数: 7

Abstract

Sound source localization (SSL) is one of the important techniques used in various engineering fields such as monitoring and surveillance system, and so on. When SSL is utilized in robot auditory system, it is essential for Human-Robot Interaction (HRI) in that robot can recognize its working environment and what direction a speaker is locating. Generalized cross correlation (GCC) function has been frequently used for SSL due to its fast computation and less requirement of high system resources. Artificial ear which is the robot auditory hardware we are dealing with consists of 2 microphones and a single pinna structure. This is locating on the both sides of robot head where free field condition can't be applicable due to reflected wave caused by robot platform such as robot shoulder, etc. This paper has focused on modification of spatially mapped GCC function, which was proposed by B. Kwon, for application into artificial ear structure. We proposed cleansed PHAT GCC function for use in spatially mapped GCC method. Cleansed PHAT GCC function combines cleansing method and conventional PHAT GCC function for eliminating reflected wave which causes free field condition break down. Simulation results using proposed cleansed PHAT GCC function showed that 93% SSL performance is obtainable when a single sound source exists.

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净化了基于PHAT GCC的声源定位

声源定位(SSL)是应用于各种工程领域的重要技术之一，如监控系统等。将SSL应用于机器人听觉系统中，机器人能够识别其工作环境和说话人所处的方向对人机交互至关重要。广义互相关函数(GCC)由于计算速度快、对系统资源的要求不高而被广泛应用于SSL。人工耳是我们正在研究的机器人听觉硬件由两个麦克风和一个耳廓结构组成。这是位于机器人头部两侧，由于机器人肩膀等机器人平台产生的反射波，不适合自由场条件。本文主要研究了B. Kwon提出的空间映射GCC函数在人工耳结构中的应用。我们提出了清洁的PHAT GCC函数，用于空间映射的GCC方法。清洁PHAT GCC功能结合了清洁方法和传统的PHAT GCC功能，消除了导致自由场条件击穿的反射波。使用所提出的清洁PHAT GCC函数的仿真结果表明，当存在单个声源时，可获得93%的SSL性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ICCAS 2010

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