This thesis is on a new method for improving the convergence speed of the normalised least mean square (NLMS) algorithm when the input is a coloured signal, such as speech, that can be decorrelated using linear prediction. The proposed method gives a significant improvement in the convergence speed and requires very little additional computation in terms of arithmetic operations and memory space. It is also very easy to implement. An important aspect of the proposed method is its inherent stability irrespective of the order of the prediction-error filter or the manner in which it is adapted. This allows the proposed method to be used without any restrictions beyond those of the conventional NLMS algorithm. Following the stability analysis, ...
The principal issue in acoustic echo cancellation (AEC) is to estimate the impulse response between ...
Includes bibliographical references (pages [123]-127).Acoustic echo in teleconferencing systems and ...
Abstract — In this paper, we present a new approach to cancelling echoes, mostly occurrence in today...
Fast convergence of the adaptive filter in an acoustic echo cancellation based hands-free communicat...
The normalized LMS (NLMS) algorithm has been successfully used in many system identification problem...
Acoustic echo arise in hand free communication environment due to poor voice coupling between Microp...
In modern telecommunication systems like hands-free and teleconferencing systems, the problem arise ...
In this paper, a variable step size pre-whitened sign algorithm with a quantized normalizing factor ...
Abstract: A modified version of proportionate normalized least mean square (PNLMS) algorithm that ac...
This paper presents the comparison between different adap-tive algorithms usages in acoustic echo ca...
Echo is one of the common problems that happen during long-distance telecommunications. The occurren...
An acoustic echo cancellation structure with a single loudspeaker and multiple microphones is, from...
The normalized least-mean-square (NLMS) algorithm is one of the most common choices for echo cancell...
Convergence rate of an algorithm is an important factor that determines the deployment of such algor...
The proportionate normalized least-mean-square (PNLMS) algorithms were developed in the context of n...
The principal issue in acoustic echo cancellation (AEC) is to estimate the impulse response between ...
Includes bibliographical references (pages [123]-127).Acoustic echo in teleconferencing systems and ...
Abstract — In this paper, we present a new approach to cancelling echoes, mostly occurrence in today...
Fast convergence of the adaptive filter in an acoustic echo cancellation based hands-free communicat...
The normalized LMS (NLMS) algorithm has been successfully used in many system identification problem...
Acoustic echo arise in hand free communication environment due to poor voice coupling between Microp...
In modern telecommunication systems like hands-free and teleconferencing systems, the problem arise ...
In this paper, a variable step size pre-whitened sign algorithm with a quantized normalizing factor ...
Abstract: A modified version of proportionate normalized least mean square (PNLMS) algorithm that ac...
This paper presents the comparison between different adap-tive algorithms usages in acoustic echo ca...
Echo is one of the common problems that happen during long-distance telecommunications. The occurren...
An acoustic echo cancellation structure with a single loudspeaker and multiple microphones is, from...
The normalized least-mean-square (NLMS) algorithm is one of the most common choices for echo cancell...
Convergence rate of an algorithm is an important factor that determines the deployment of such algor...
The proportionate normalized least-mean-square (PNLMS) algorithms were developed in the context of n...
The principal issue in acoustic echo cancellation (AEC) is to estimate the impulse response between ...
Includes bibliographical references (pages [123]-127).Acoustic echo in teleconferencing systems and ...
Abstract — In this paper, we present a new approach to cancelling echoes, mostly occurrence in today...