Title :
Acoustic noise and echo cancellation microphone system for videoconferencing
Author :
Kuo, Sen M. ; Huang, Yu C. ; Pan, Zhibing
Author_Institution :
Dept. of Electr. Eng., Northern Illinois Univ., DeKalb, IL, USA
fDate :
11/1/1995 12:00:00 AM
Abstract :
Acoustic noise and echo cancellation using two adaptive filters and the least-mean-square (LMS) algorithm is the most effective technique of reducing acoustic noises and echoes in a hands-free telephone system. Unfortunately, high order filters are required in this traditional structure, which results in high cost, slow convergence, and high excess mean-square and numerical errors. The paper presents a new acoustic noise and echo cancellation microphone (ANECM) system, which consists of two closely-spaced directional microphones pointing in opposite directions and two low order adaptive filters. By using two highly correlated microphone signals, the ANECM system provides satisfied performance at much lower cost than the traditional techniques. To test and perfect the design, computer simulations were conducted based on real data collected from a typical conference room
Keywords :
acoustic filters; acoustic noise; acoustic transducer arrays; adaptive filters; adaptive signal processing; array signal processing; digital filters; echo suppression; least mean squares methods; microphones; teleconferencing; ANECM system; acoustic noise; acoustic noise and echo cancellation microphone system; adaptive filters; closely-spaced directional microphones; conference room; correlated microphone signals; design; echo cancellation microphone system; hands-free telephone system; least-mean-square algorithm; videoconferencing; Acoustic noise; Acoustic testing; Adaptive filters; Computer simulation; Convergence of numerical methods; Costs; Echo cancellers; Least squares approximation; Microphones; Telephony;
Journal_Title :
Consumer Electronics, IEEE Transactions on
