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Author: Kun Shi
Publisher:
ISBN:
Category : Acoustical engineering
Languages : en
Pages :
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Book Description
The objective of this research is to presents new acoustic echo cancellation design methods that can effectively work in the nonlinear environment. Acoustic echo is an annoying issue for voice communication systems. Because of room acoustics and delay in the transmission path, echoes affect the sound quality and may hamper communications. Acoustic echo cancellers (AECs) are employed to remove the acoustic echo while keeping full-duplex communications. AEC designs face a variety of challenges, including long room impulse response, acoustic path nonlinearity, ambient noise, and double-talk situation. We investigate two parts of echo canceller design: echo cancellation algorithm design and control logic algorithm design. In the first part, our work focuses on the nonlinear adaptive and fast-convergence algorithms. We investigate three different structures: predistortion linearization, cascade structure, and nonlinear residual echo suppressor. Specifically, we are interested in the coherence function, since it provides a means for quantifying linear association between two stationary random processes. By using the coherence as a criterion to design the nonlinear echo canceller in the system, our method guarantees the algorithm stability and leads to a faster convergence rate. In the second part, our work focuses on the robustness of AECs in the presence of interference. With regard to the near-end speech, we investigate the double-talk detector (DTD) design in conjunction with nonlinear AECs. Specifically, we propose to design a DTD based on the mutual information (MI). We show that the advantage of the MI-based method, when compared with the existing methods, is that it is applicable to both the linear and nonlinear scenarios. With respect to the background noise, we propose a variable step-size and variable tap-length least mean square (LMS) algorithm. Based on the fact that the room impulse response usually exhibits an exponential decay power profile in acoustic echo cancellation applications, the proposed method finds optimal step size and tap length at each iteration. Thus, it achieves faster convergence rate and better steady-state performance. We show a number of experimental results to illustrate the performance of the proposed algorithms.
Author: Kun Shi
Publisher:
ISBN:
Category : Acoustical engineering
Languages : en
Pages :
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Book Description
The objective of this research is to presents new acoustic echo cancellation design methods that can effectively work in the nonlinear environment. Acoustic echo is an annoying issue for voice communication systems. Because of room acoustics and delay in the transmission path, echoes affect the sound quality and may hamper communications. Acoustic echo cancellers (AECs) are employed to remove the acoustic echo while keeping full-duplex communications. AEC designs face a variety of challenges, including long room impulse response, acoustic path nonlinearity, ambient noise, and double-talk situation. We investigate two parts of echo canceller design: echo cancellation algorithm design and control logic algorithm design. In the first part, our work focuses on the nonlinear adaptive and fast-convergence algorithms. We investigate three different structures: predistortion linearization, cascade structure, and nonlinear residual echo suppressor. Specifically, we are interested in the coherence function, since it provides a means for quantifying linear association between two stationary random processes. By using the coherence as a criterion to design the nonlinear echo canceller in the system, our method guarantees the algorithm stability and leads to a faster convergence rate. In the second part, our work focuses on the robustness of AECs in the presence of interference. With regard to the near-end speech, we investigate the double-talk detector (DTD) design in conjunction with nonlinear AECs. Specifically, we propose to design a DTD based on the mutual information (MI). We show that the advantage of the MI-based method, when compared with the existing methods, is that it is applicable to both the linear and nonlinear scenarios. With respect to the background noise, we propose a variable step-size and variable tap-length least mean square (LMS) algorithm. Based on the fact that the room impulse response usually exhibits an exponential decay power profile in acoustic echo cancellation applications, the proposed method finds optimal step size and tap length at each iteration. Thus, it achieves faster convergence rate and better steady-state performance. We show a number of experimental results to illustrate the performance of the proposed algorithms.
Author: Jing Fu
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
The nonlinearity of amplifier and/or loudspeaker gives rise to nonlinear echo in acoustic systems, which degrades seriously the performance of speech and audio communications. Many acoustic echo cancellation (AEC) schemes have been proposed by researchers to cancel the disturbing echo. In this thesis, two approaches for nonlinear echo cancellation, namely, the 2 nd order Volterra filter-based canceller and the sigmoid-transform-based (STB) canceller, are developed. Volterra filter (VF) plays a critical role in modeling a nonlinear acoustic system where the nonlinear distortion is mainly caused by a loudspeaker. However, the large number of coefficients and the high computational complexity always make the VF difficult to be used in practice. By analyzing a general 2 nd order VF model and a cascade model consisting of a 2 nd order VF and a transversal filter, this thesis proposes a simplified 2 nd order VF structure with relatively low computational complexity for the echo canceller, which is shown to be more efficient in acoustic echo cancellation applications. A theoretically justification is also provided to show the feasibility of such a simplification. Moreover, a normalized least mean square (NLMS) algorithm for kernel-separated 2 nd order VF is derived to accelerate the convergence speed of the coefficients of the nonlinear filter. This algorithm uses a new range of the step size or called convergence factor to ensure the stability of the adaptive filter. The outstanding performance of the proposed AEC is verified by computer simulations For solving the nonlinear distortion caused mainly by an amplifier, a simple yet efficient nonlinear echo cancellation scheme is proposed by using an adaptable sigmoid function in conjunction with a conventional transversal adaptive filter. The new scheme uses the least mean square (LMS) algorithm to update the sigmoid function and the recursive least square (RLS) algorithm to determine the weight vector of the transversal filter. The proposed acoustic echo canceller is proved to be convergent under some reasonable assumptions. Extensive computer simulations show that the proposed AEC has a very satisfactory echo cancellation performance for saturation-type nonlinear distortion.
Author: J. Benesty
Publisher: Springer Science & Business Media
ISBN: 9783540417217
Category : Computers
Languages : en
Pages : 248
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Book Description
This book brings together many advanced topics in network and acoustic echo cancellation aimed towards enhancing the echo cancellation performance of next-generation telecommunication systems. The resulting compendium provides a coherent treatment of such topics not found otherwise in journals or other books.
Author: Weifeng Liu
Publisher: John Wiley & Sons
ISBN: 1118211219
Category : Science
Languages : en
Pages : 167
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Book Description
Online learning from a signal processing perspective There is increased interest in kernel learning algorithms in neural networks and a growing need for nonlinear adaptive algorithms in advanced signal processing, communications, and controls. Kernel Adaptive Filtering is the first book to present a comprehensive, unifying introduction to online learning algorithms in reproducing kernel Hilbert spaces. Based on research being conducted in the Computational Neuro-Engineering Laboratory at the University of Florida and in the Cognitive Systems Laboratory at McMaster University, Ontario, Canada, this unique resource elevates the adaptive filtering theory to a new level, presenting a new design methodology of nonlinear adaptive filters. Covers the kernel least mean squares algorithm, kernel affine projection algorithms, the kernel recursive least squares algorithm, the theory of Gaussian process regression, and the extended kernel recursive least squares algorithm Presents a powerful model-selection method called maximum marginal likelihood Addresses the principal bottleneck of kernel adaptive filters—their growing structure Features twelve computer-oriented experiments to reinforce the concepts, with MATLAB codes downloadable from the authors' Web site Concludes each chapter with a summary of the state of the art and potential future directions for original research Kernel Adaptive Filtering is ideal for engineers, computer scientists, and graduate students interested in nonlinear adaptive systems for online applications (applications where the data stream arrives one sample at a time and incremental optimal solutions are desirable). It is also a useful guide for those who look for nonlinear adaptive filtering methodologies to solve practical problems.
Author: Eberhard Hänsler
Publisher: John Wiley & Sons
ISBN: 0471678392
Category : Science
Languages : en
Pages : 474
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Book Description
Authors are well known and highly recognized by the "acoustic echo and noise community." Presents a detailed description of practical methods to control echo and noise Develops a statistical theory for optimal control parameters and presents practical estimation and approximation methods
Author: Eberhard Hänsler
Publisher: Springer Science & Business Media
ISBN: 3540332138
Category : Technology & Engineering
Languages : en
Pages : 648
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Book Description
This book treats important topics in "Acoustic Echo and Noise Control" and reports the latest developments. Methods for enhancing the quality of transmitted speech signals are gaining growing attention in universities and in industrial development laboratories. This book, written by an international team of highly qualified experts, concentrates on the modern and advanced methods.
Author: Suresh Chandra Satapathy
Publisher: Springer
ISBN: 3319120123
Category : Technology & Engineering
Languages : en
Pages : 783
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Book Description
This volume contains 87 papers presented at FICTA 2014: Third International Conference on Frontiers in Intelligent Computing: Theory and Applications. The conference was held during 14-15, November, 2014 at Bhubaneswar, Odisha, India. This volume contains papers mainly focused on Network and Information Security, Grid Computing and Clod Computing, Cyber Security and Digital Forensics, Computer Vision, Signal, Image & Video Processing, Software Engineering in Multidisciplinary Domains and Ad-hoc and Wireless Sensor Networks.
Author: Xiaojian Lu
Publisher:
ISBN:
Category :
Languages : en
Pages : 364
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Book Description
"Acoustic echo cancellation (AEC) is an essential component of effective hands-free telephony. Conventional AEC systems employ linear adaptive filters; therefore transmission channel nonlinearities caused by nonlinear components (especially the vocoders in digital networks) can severely degrade performance." --
Author: Fabian Küch
Publisher:
ISBN:
Category :
Languages : en
Pages : 193
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Book Description
![Acoustic Echo Cancellation Over Nonlinear Channels [microform] PDF](https://books.google.com/books/content/images/frontcover/VGzqSgAACAAJ?fife=w80-h100)
Author: Xiaojian Lu
Publisher: Library and Archives Canada = Bibliothèque et Archives Canada
ISBN:
Category :
Languages : en
Pages : 364
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Book Description
