Phase Analysis of Sound Fields

This book deals with the phase properties in the context such as sound fields in rooms from a perspective of transfer functions for sound paths. Phase analysis, i.e., investigations of zeros of transfer functions, is a qualitative or system theoretic approach to sound fields rather than the wave-theoretic power spectral analysis. The examination of phase responses offers new insights into sound fields and yields results that the standard power spectral analysis cannot provide.

This book presents experimental data and numerical examples based on the mathematical formulations. It shows the mathematical formulations of acoustics and communication systems for engineers and physicists to get familiar with the basics of science.

Chapters 15 provide the theoretical basis on the system theoretic approach to sound fields where Chapters 1 and 2 are introductions to discrete acoustic systems, Chapters 35 summarize wave equations, geometrical and random theories of room acoustics, and Chapters 610 develop details of transfer functions in sound.

Offers a deep insight to the phase properties of sound fields in rooms Provides new insights into sound fields which the standard power spectral analysis cannot provide Shows mathematical formulations of acoustical and communication systems to familiarize with the basics science

Auteur

Mikio Tohyama holds a Doctorate of Engineering from Waseda University, Tokyo, Japan. For the next 18 years beginning in 1975, Dr. Tohyama was involved in research projects in acoustics and signal processing at the Nippon Telegraph and Telephone (NTT) Research Laboratories. He was a professor at Kogakuin University (1993-2003) and Waseda University (2003-2012) in sound and perception. Since 2012 he has operated his research consulting firm, Wave Science Study (WSS). His present interest is signatures in spatial sound and perception in the wavenumber space. Dr. Tohyama enjoys playing the piano every day.

Contenu

Introduction: Periodic pulse train and resonance.- Mirror image theory and one-dimensional systems.- Wave equation for spherical waves in coherent sound fields.- Coherent field in rooms: zeros by multiple reflection.- Random sound fields in rooms.- Poles and zeros of power response and driving point impedance of a source in Source signature analysis by modulation envelopes.- Zeros and room transfer functions for incoherent field.-Statistical phase analysis in rooms.