MODEL PARAMETER IDENTIFICATION OF ACOUSTIC SIGNALS IN AUDIO EXCHANGE TELECOMMUNICATION SYSTEMS UNDER CONDITIONS OF INTERFERENCE AND ACOUSTIC FEEDBACK SYSTEM-Reference-Cited by-同舟云学术

MODEL PARAMETER IDENTIFICATION OF ACOUSTIC SIGNALS IN AUDIO EXCHANGE TELECOMMUNICATION SYSTEMS UNDER CONDITIONS OF INTERFERENCE AND ACOUSTIC FEEDBACK SYSTEM

Published:2019-11-07 Issue:10 Volume:2019 Page:25-38
ISSN:1999-8775
Container-title:Bulletin of Bryansk state technical university
language:en
Short-container-title:

Author:

Ермолаев Валерий¹,Ermolaev Valeriy²,Кропотов Юрий¹,Kropotov Yuriy²

Affiliation:

1. Муромский институт (филиал) Владимирского государственного университета им. А.Г. и Н.Г. Столетовых

2. Murom Institute (Branch) of Stoletovs State University of Vladimir

Abstract

The paper reports the solution description for the problem of designing the models of the systems of information exchange with the acoustic feedback with the use of the methods of the linear functional-differential equation theory. With the aid of them it is ensured a stability increase in systems of operational-command loud-speaker communication and notice, and also the problem of echo decrease at the inputs of speech transforming devices is solved that conditions on quality increase of their functioning. In the paper there are presented models having a continuous consequence and taking into account a character of acoustic echo-signals in closed spaces more complete which results in authenticity increase of modeling results at echo-signal compensation. To solve the echo identification problem the functions of echo lag distribution are approximated by a number of exponents which simplifies the equations and allows accepting a consequence both at a finite and infinite interval. The investigation of the stability of models of systems with the acoustic feedback in the paper is carried out by a frequency method. At that there is considered an approach to the estimate of correlate and spectral functions of acoustic signals which is based on a parametric presentation of acoustic signals and components of noise constituents

Publisher

Bryansk State Technical University BSTU

Subject

General Earth and Planetary Sciences,General Environmental Science

Reference10 articles.

1. Erneux, T. Applied delay differential equations / T. Erneux. - New York: Springer Sciences, 2009. - 199 p., Erneux, T. Applied delay differential equations / T. Erneux. - New York: Springer Sciences, 2009. - 199 p.

2. Kahrs, M. Applications of digital signal processing to audio and acoustics / M. Kahrs, K. Brandenburg. - New York: Kluwer Academic Publisher, 2002. - 572 p., Kahrs, M. Applications of digital signal processing to audio and acoustics / M. Kahrs, K. Brandenburg. - New York: Kluwer Academic Publisher, 2002. - 572 p.

3. Хейл, Д. Теория функционально-дифференциальных уравнений / Д. Хейл. - М.: Мир, 1984. - 421 с., Heyl, D. Teoriya funkcional'no-differencial'nyh uravneniy / D. Heyl. - M.: Mir, 1984. - 421 s.

4. Кропотов, Ю.А. Моделирование и методы исследований акустических сигналов, шумов и помех в системах телекоммуникаций: монография / Ю.А. Кропотов, В.А. Ермолаев. - М.-Берлин: Директ-Медиа, 2016. - 256 с., Kropotov, Yu.A. Modelirovanie i metody issledovaniy akusticheskih signalov, shumov i pomeh v sistemah telekommunikaciy: monografiya / Yu.A. Kropotov, V.A. Ermolaev. - M.-Berlin: Direkt-Media, 2016. - 256 s.

5. Беллман, Р. Дифференциально-разностные уравнения / Р. Беллман, К.Л. Кук. - М.: Мир, 1967. - 548 с., Bellman, R. Differencial'no-raznostnye uravneniya / R. Bellman, K.L. Kuk. - M.: Mir, 1967. - 548 s.