Phonological Processes and Brain Mechanisms reviews selective neurolinguistic research relating brain structures to phonology. The studies in the volume report on a number of timely and important topics, such as a neuronal model for processing segmental phonology, the role of the thalamus and basal ganglia in language processing, and oral reading in dyslexia. Increasingly, phonology is considered a cognitive module whose brain correlates may be independently investigated. Given the modular nature of the phonological system and its direct linkage with peripheral components of the nervous system, research on phonology and the brain will undoubtedly flourish in the future. The chapters in this volume give substance to this future.
Phonological Processes and Brain Mechanisms reviews selective neurolinguistic research relating brain structures to phonology. The studies in the volume report on a number of timely and important topics, such as a neuronal model for processing segmental phonology, the role of the thalamus and basal ganglia in language processing, and oral reading in dyslexia. Increasingly, phonology is considered a cognitive module whose brain correlates may be independently investigated. Given the modular nature of the phonological system and its direct linkage with peripheral components of the nervous system, research on phonology and the brain will undoubtedly flourish in the future. The chapters in this volume give substance to this future.
Bringing together a range of experts, the editors of this volume aim to show how psycholinguistic models of normal speech processing can be applied to the study of disorders of speech production, such as stuttering, aphasia and verbal dyspraxia.
The use of language is a fundamental component of much of our day-to-day life. Language often co-occurs with other activities with which it must be coordinated. This raises the question of whether the cognitive processes involved in planning spoken utterances and in understanding them are autonomous or whether they are affected by, and perhaps affect, non-linguistic cognitive processes, with which they might share processing resources. This question is the central concern of Automaticity and Control in Language Processing. The chapters address key issues concerning the relationship between linguistic and non-linguistic processes, including: How can the degree of automaticity of a component be defined? Which linguistic processes are truly automatic, and which require processing capacity? Through which mechanisms can control processes affect linguistic performance? How might these mechanisms be represented in the brain? How do limitations in working memory and executive control capacity affect linguistic performance and language re-learning in persons with brain damage? This important collection from leading international researchers will be of great interest to researchers and students in the area.
Neural Models of Language Processes offers an interdisciplinary approach to understanding the nature of human language and the means whereby we use it. The book is organized into five parts. Part I provides an opening framework that addresses three tasks: to place neurolinguistics in current perspective; to provide two case studies of aphasia; and to discuss the ""rules of the game"" of the various disciplines that contribute to this volume. Part II on artificial intelligence (AI) and processing models discusses the contribution of AI to neurolinguistics. The chapters in this section introduce three AI systems for language perception: the HWIM and HEARSAY systems that proceed from an acoustic input to a semantic interpretation of the utterance it represents, and Marcus9 system for parsing sentences presented in text. Studying these systems demonstrates the virtues of implemented or implementable models. Part III on linguistic and psycholinguistic perspectives includes studies such as nonaphasic language behavior and the linguistics and psycholinguistics of sign language. Part IV examines neurological perspectives such as the neuropathological basis of Broca's aphasia and the simulation of speech production without a computer. Part V on neuroscience and brain theory includes studies such as the histology, architectonics, and asymmetry of language areas; hierarchy and evolution in neurolinguistics; and perceptual-motor processes and the neural basis of language.
Natural language occurs in time. Events happen earlier, later, or simultaneously with other events; however, this temporal dimension is often downplayed or overlooked. This Element introduces readers with a background in structural linguistics to dynamic approaches to phonological processing. It covers models of serial order, speech production and speech perception, with special attention to how they can enhance one another. The work then asks whether dynamic approaches have the potential to change how we think of phonological structure. Key ideas discussed include phonemes and auditory targets, control mechanisms creating structure, and the shape of phonological representations in a dynamic context. The work should function as a bridge for those with linguistic questions who want to learn answers derived from the study of speech as a dynamic system.
Hardbound. An international constellation of leading scientists in the fields of linguistics, language development, cognitive sciences, neuropsychology and psychology have contributed to this excellent work. Their contributions elucidate a variety of important aspects of crucial mechanisms in cognition and language processing. Important issues highlighted include the early development of these mechanisms as well as the effects of weaknesses in these mechanisms in terms of language learning deficits in developmental dyslexia.Based on lectures given at a multidisciplinary conference, the volume is written in a universal style to accommodate scientists outwith their own fields.The book will be invaluable to a broad spectrum of professionals dealing directly or indirectly with the remediation of individuals afflicted with learning difficulties.
Profoundly influenced by the analyses, of contemporary linguistics, these original contributions bring a number of different views to bear on important issues in a controversial area of study. The linguistic structures and language-related processes the book deals with are for the most part central (syntactic structures, phonological representations, semantic readings) rather than peripheral (acousticphonetic structures and the perception and production of these structures) aspects of language. Each section contains a summarizing introduction. Section I takes up issues at the interface of linguistics and neurology: The Concept of a Mental Organ for Language; Neural Mechanisms, Aphasia, and Theories of Language; Brain-based and Non-brain-based Models of Language; Vocal Learning and Its Relation to Replaceable Synapses and Neurons. Section II presents linguistic and psycholinguistic issues: Aspects of Infant Competence and the Acquisition of Language; the Linguistic Analysis of Aphasic Syndromes; the Clinical Description of Aphasia (Linguistic Aspects); The Psycholinguistic Interpretation of Aphasias; The Organization of Processing Structure for Language Production; and The Neuropsychology of Bilingualism. Section III deals with neural issues: Where is the Speech Area and Who has Seen It? Determinants of Recovery from Aphasia; Anatomy of Language; Lessons from Comparative Anatomy; Event Related Potentials and Language; Neural Models and Very Little About Language. David Caplan, M.D. edited Biological Studies of Mental Processes(MIT Press 1980), and is a member of the editorial staff of two prestigious journals, Cognition and Brain & Behavorial Sciences, He works at the Montreal Neurological Institute. Andreacute; Roch Lecours is Professor of Neurology and Allan Smith Professor of Physiology, both at the University of Montreal. The book is in the series, Studies in Neuropsychology and Neurolinguistics.
