Music, Cognition, and Computerized Sound

Music, Cognition, and Computerized Sound PDF

Author: Perry R. Cook

Publisher: MIT Press

Published: 2001-01-26

Total Pages: 398

ISBN-13: 9780262531900

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The first book to provide comprehensive introductory coverage of the multiple topics encompassed under psychoacoustics. How hearing works and how the brain processes sounds entering the ear to provide the listener with useful information are of great interest to psychologists, cognitive scientists, and musicians. However, while a number of books have concentrated on individual aspects of this field, known as psychoacoustics, there has been no comprehensive introductory coverage of the multiple topics encompassed under the term. Music, Cognition, and Computerized Sound is the first book to provide that coverage, and it does so via a unique and useful approach. The book begins with introductory chapters on the basic physiology and functions of the ear and auditory sections of the brain, then proceeds to discuss numerous topics associated with the study of psychoacoustics, including cognitive psychology and the physics of sound. The book has a particular emphasis on music and computerized sound. An accompanying download includes many sound examples to help explicate the text and is available with the code included in the book at http://mitpress.mit.edu/mccs. To download sound samples, you can obtain a unique access code by emailing [email protected] or calling 617-253-2889 or 800-207-8354 (toll-free in the U.S. and Canada).The contributing authors include John Chowning, Perry R. Cook, Brent Gillespie, Daniel J. Levitin, Max Mathews, John Pierce, and Roger Shepard.

Embodied Music Cognition and Mediation Technology

Embodied Music Cognition and Mediation Technology PDF

Author: Marc Leman

Publisher: MIT Press

Published: 2007-08-03

Total Pages: 317

ISBN-13: 0262122936

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A proposal that an embodied cognition approach to music research—drawing on work in computer science, psychology, brain science, and musicology—offers a promising framework for thinking about music mediation technology. Digital media handles music as encoded physical energy, but humans consider music in terms of beliefs, intentions, interpretations, experiences, evaluations, and significations. In this book, drawing on work in computer science, psychology, brain science, and musicology, Marc Leman proposes an embodied cognition approach to music research that will help bridge this gap. Assuming that the body plays a central role in all musical activities, and basing his approach on a hypothesis about the relationship between musical experience (mind) and sound energy (matter), Leman argues that the human body is a biologically designed mediator that transfers physical energy to a mental level—engaging experiences, values, and intentions—and, reversing the process, transfers mental representation into material form. He suggests that this idea of the body as mediator offers a promising framework for thinking about music mediation technology. Leman proposes that, under certain conditions, the natural mediator (the body) can be extended with artificial technology-based mediators. He explores the necessary conditions and analyzes ways in which they can be studied. Leman outlines his theory of embodied music cognition, introducing a model that describes the relationship between a human subject and its environment, analyzing the coupling of action and perception, and exploring different degrees of the body's engagement with music. He then examines possible applications in two core areas: interaction with music instruments and music search and retrieval in a database or digital library. The embodied music cognition approach, Leman argues, can help us develop tools that integrate artistic expression and contemporary technology.

Analysis, Synthesis, and Perception of Musical Sounds

Analysis, Synthesis, and Perception of Musical Sounds PDF

Author: James Beauchamp

Publisher: Springer Science & Business Media

Published: 2007-08-30

Total Pages: 348

ISBN-13: 038732576X

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This book contains a complete and accurate mathematical treatment of the sounds of music with an emphasis on musical timbre. The book spans the range from tutorial introduction to advanced research and application to speculative assessment of its various techniques. All the contributors use a generalized additive sine wave model for describing musical timbre which gives a conceptual unity, but is of sufficient utility to be adapted to many different tasks.

Perception-Based Data Processing in Acoustics

Perception-Based Data Processing in Acoustics PDF

Author: Bozena Kostek

Publisher: Springer Science & Business Media

Published: 2005-08-19

Total Pages: 440

ISBN-13: 9783540257295

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This monograph provides novel insights into cognitive mechanisms underlying the processing of sound and music in different environments. A solid understanding of these mechanisms is vital for numerous technological applications such as for example information retrieval from distributed musical databases or building expert systems. In order to investigate the cognitive mechanisms of music perception fundamentals of hearing psychophysiology and principles of music perception are presented. In addition, some computational intelligence methods are reviewed, such as rough sets, fuzzy logic, artificial neural networks, decision trees and genetic algorithms. The applications of hybrid decision systems to problem solving in music and acoustics are exemplified and discussed on the basis of obtained experimental results.

Sound and Music Computing

Sound and Music Computing PDF

Author: Tapio Lokki

Publisher: MDPI

Published: 2018-06-26

Total Pages: 621

ISBN-13: 3038429074

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This book is a printed edition of the Special Issue "Sound and Music Computing" that was published in Applied Sciences

The Cognition of Basic Musical Structures

The Cognition of Basic Musical Structures PDF

Author: David Temperley

Publisher: MIT Press

Published: 2004-08-20

Total Pages: 432

ISBN-13: 9780262701051

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In this book, David Temperley addresses a fundamental question about music cognition: how do we extract basic kinds of musical information, such as meter, phrase structure, counterpoint, pitch spelling, harmony, and key from music as we hear it? Taking a computational approach, Temperley develops models for generating these aspects of musical structure. The models he proposes are based on preference rules, which are criteria for evaluating a possible structural analysis of a piece of music. A preference rule system evaluates many possible interpretations and chooses the one that best satisfies the rules. After an introductory chapter, Temperley presents preference rule systems for generating six basic kinds of musical structure: meter, phrase structure, contrapuntal structure, harmony, and key, as well as pitch spelling (the labeling of pitch events with spellings such as A flat or G sharp). He suggests that preference rule systems not only show how musical structures are inferred, but also shed light on other aspects of music. He substantiates this claim with discussions of musical ambiguity, retrospective revision, expectation, and music outside the Western canon (rock and traditional African music). He proposes a framework for the description of musical styles based on preference rule systems and explores the relevance of preference rule systems to higher-level aspects of music, such as musical schemata, narrative and drama, and musical tension.

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