Phonemic, sensory, and motor representations in a neurocomputational model of speech production

Bernd Kroger, P Birkholz, Anja Lowit, Christiane Neuschaefer-Rube

Research output: Chapter in Book/Report/Conference proceedingChapter

Abstract

Speaking is not only the basic mode of communication, but also the most complex motor skill humans can perform. Disorders of speech and language are the most common sequelae of brain disease or injury, a condition faced by millions of people each year. Health care practitioners need to interact with basic scientists in order to develop and evaluate new methods of clinical diagnosis and therapy to help their patients overcome or compensate their communication difficulties. In recent years, collaboration between those in the the disciplines of neurophysiology, cognitive psychology, mathematical modelling, neuroscientists, and speech science have helped accelerate progress in the field.

This book presents the latest and most important theoretical developments in the area of speech motor control, offering new insights by leaders in their field into speech disorders. The scope of this book is broad - presenting state-of-the art research in the areas of modelling, genetics, brain imaging, behavioral experimentation in addition to clinical applications.

The book will be valuable for researchers and clinicians in speech-language pathology, cognitive neuroscience, clinical psychology, and neurology.
LanguageEnglish
Title of host publicationSpeech motor control
Subtitle of host publicationnew developments in basic and applied research
EditorsBen Maassen , Pascal van Lieshout
Place of PublicationOxford
Publication statusPublished - 25 Feb 2010

Fingerprint

Speech Disorders
Communication
Speech-Language Pathology
Language Disorders
Clinical Psychology
Neurophysiology
Motor Skills
Motor Cortex
Brain Diseases
Neurology
Neuroimaging
Brain Injuries
Research Personnel
Psychology
Delivery of Health Care
Research
Therapeutics
Cognitive Neuroscience

Keywords

  • communication
  • complex motor skill
  • speech disorder
  • brain disease
  • brain injury
  • neurophysiology
  • speech science
  • neuroscientists
  • mathematical modelling
  • cognitive psychology

Cite this

Kroger, B., Birkholz, P., Lowit, A., & Neuschaefer-Rube, C. (2010). Phonemic, sensory, and motor representations in a neurocomputational model of speech production. In B. Maassen , & P. van Lieshout (Eds.), Speech motor control: new developments in basic and applied research Oxford.
Kroger, Bernd ; Birkholz, P ; Lowit, Anja ; Neuschaefer-Rube, Christiane. / Phonemic, sensory, and motor representations in a neurocomputational model of speech production. Speech motor control: new developments in basic and applied research. editor / Ben Maassen ; Pascal van Lieshout. Oxford, 2010.
@inbook{a12247e7a9f642e394a1c4bb575304f0,
title = "Phonemic, sensory, and motor representations in a neurocomputational model of speech production",
abstract = "Speaking is not only the basic mode of communication, but also the most complex motor skill humans can perform. Disorders of speech and language are the most common sequelae of brain disease or injury, a condition faced by millions of people each year. Health care practitioners need to interact with basic scientists in order to develop and evaluate new methods of clinical diagnosis and therapy to help their patients overcome or compensate their communication difficulties. In recent years, collaboration between those in the the disciplines of neurophysiology, cognitive psychology, mathematical modelling, neuroscientists, and speech science have helped accelerate progress in the field. This book presents the latest and most important theoretical developments in the area of speech motor control, offering new insights by leaders in their field into speech disorders. The scope of this book is broad - presenting state-of-the art research in the areas of modelling, genetics, brain imaging, behavioral experimentation in addition to clinical applications. The book will be valuable for researchers and clinicians in speech-language pathology, cognitive neuroscience, clinical psychology, and neurology.",
keywords = "communication, complex motor skill, speech disorder, brain disease, brain injury, neurophysiology, speech science, neuroscientists, mathematical modelling, cognitive psychology",
author = "Bernd Kroger and P Birkholz and Anja Lowit and Christiane Neuschaefer-Rube",
year = "2010",
month = "2",
day = "25",
language = "English",
isbn = "9780199235797",
editor = "{Maassen }, {Ben } and {van Lieshout}, {Pascal }",
booktitle = "Speech motor control",

}

Kroger, B, Birkholz, P, Lowit, A & Neuschaefer-Rube, C 2010, Phonemic, sensory, and motor representations in a neurocomputational model of speech production. in B Maassen & P van Lieshout (eds), Speech motor control: new developments in basic and applied research. Oxford.

Phonemic, sensory, and motor representations in a neurocomputational model of speech production. / Kroger, Bernd; Birkholz, P; Lowit, Anja; Neuschaefer-Rube, Christiane.

Speech motor control: new developments in basic and applied research. ed. / Ben Maassen ; Pascal van Lieshout. Oxford, 2010.

Research output: Chapter in Book/Report/Conference proceedingChapter

TY - CHAP

T1 - Phonemic, sensory, and motor representations in a neurocomputational model of speech production

AU - Kroger, Bernd

AU - Birkholz, P

AU - Lowit, Anja

AU - Neuschaefer-Rube, Christiane

PY - 2010/2/25

Y1 - 2010/2/25

N2 - Speaking is not only the basic mode of communication, but also the most complex motor skill humans can perform. Disorders of speech and language are the most common sequelae of brain disease or injury, a condition faced by millions of people each year. Health care practitioners need to interact with basic scientists in order to develop and evaluate new methods of clinical diagnosis and therapy to help their patients overcome or compensate their communication difficulties. In recent years, collaboration between those in the the disciplines of neurophysiology, cognitive psychology, mathematical modelling, neuroscientists, and speech science have helped accelerate progress in the field. This book presents the latest and most important theoretical developments in the area of speech motor control, offering new insights by leaders in their field into speech disorders. The scope of this book is broad - presenting state-of-the art research in the areas of modelling, genetics, brain imaging, behavioral experimentation in addition to clinical applications. The book will be valuable for researchers and clinicians in speech-language pathology, cognitive neuroscience, clinical psychology, and neurology.

AB - Speaking is not only the basic mode of communication, but also the most complex motor skill humans can perform. Disorders of speech and language are the most common sequelae of brain disease or injury, a condition faced by millions of people each year. Health care practitioners need to interact with basic scientists in order to develop and evaluate new methods of clinical diagnosis and therapy to help their patients overcome or compensate their communication difficulties. In recent years, collaboration between those in the the disciplines of neurophysiology, cognitive psychology, mathematical modelling, neuroscientists, and speech science have helped accelerate progress in the field. This book presents the latest and most important theoretical developments in the area of speech motor control, offering new insights by leaders in their field into speech disorders. The scope of this book is broad - presenting state-of-the art research in the areas of modelling, genetics, brain imaging, behavioral experimentation in addition to clinical applications. The book will be valuable for researchers and clinicians in speech-language pathology, cognitive neuroscience, clinical psychology, and neurology.

KW - communication

KW - complex motor skill

KW - speech disorder

KW - brain disease

KW - brain injury

KW - neurophysiology

KW - speech science

KW - neuroscientists

KW - mathematical modelling

KW - cognitive psychology

M3 - Chapter

SN - 9780199235797

BT - Speech motor control

A2 - Maassen , Ben

A2 - van Lieshout, Pascal

CY - Oxford

ER -

Kroger B, Birkholz P, Lowit A, Neuschaefer-Rube C. Phonemic, sensory, and motor representations in a neurocomputational model of speech production. In Maassen B, van Lieshout P, editors, Speech motor control: new developments in basic and applied research. Oxford. 2010