A number of research groups around the world have begun to study how the brain acquires and processes language, but we still know comparatively little about it. Many such groups work on very specific, often narrow, problems. This approach is certainly necessary, but a broad perspective can be helpful, if not essential, too. This volume consists of an important collection of papers presented at the Seminar on Language, Evolution, and the Brain (SLEB), hosted by the International Institute for Advanced Studies in Kyoto, Japan, bringing together distinguished researchers with background in cognitive science, anthropology, linguistics, robotics, physics, etc. Major topics discussed here include: Creoles and pidgins, and their implications regarding language evolution. Quantitative analysis and modeling of various aspects of language evolution, including the evolution of lexical items and color terms, the emergence of linguistics categories, and the dynamics of language competition. The evolution of the human brain, and how that relates to language evolution. The evolution and the role of mirror neurons in both humans and non-humans. Evidence that the influence of language on color perception (an example of the Whorf Effect) is stronger for the right visual field than the left. This volume provides a multi-faceted discussion of how language evolves and shapes the brain that may entice university students and researchers to delve into this field with more background and curiosity.
From the author’s preface: "I once facetiously stated: 'Syntax is to semantics as the hole of the doughnut is to the whole of the doughnut.' Semantics without syntax, thus, is like a doughnut without a hole. This was in the heyday of generative semantics, and having heard that my major interest was syntax, someone was able, perhaps also facetiously, to respond: 'Does it exist?' Most of the papers collected here originated in those days and previously appeared in various linguistic journals and anthologies. The reader may note that the topics dealt with in these papers all have their roots in syntax, but in most cases relate to its boundary areas. The boundary areas are not restricted to semantics, but the above analogy of the doughnut might still apply to what syntax is to those boundary areas. Hence the title of the book.
The thirty-two papers in this collection are offered to Professor S.-Y. Kuroda by his friends, as a ge sture of their deep respect and enduring affection. One of the many ways in which Professor Kuroda has impressed us all is in the breadth of his interests and areas of expertise. He is one of those rare scholars whose work and interests span the whole range of his discipline. He is a figure of such intellectual stature that he has inspired, influenced, and encouraged researchers in an astonishing variety of projects. He continues to do so at an unslackened pace today, just as his own productivity remains vigorous. But mention of Yuki's inspiration and influence is inadequate without mention of his special humorousness, his mischievous wit, his charm and as a friend, has added a unique warmth. Knowing Yuki, and counting him quality to our lives. We who have contributed to this collection have done so in partial acknowledgement of, and gratitude for, this benign and masterful influence. The contributions to the collection reflect the range of Yuki's own interests, and cover a rich variety of approaches to the analysis of natural language. These include papers in philosophy, psychology, computer sciencel artificial intelligence, and linguistics, and, within linguistics, the entire breadth of the field: phonology, morphology, syntax, semantics, pragmatics, and computation. Though diverse in their themes, language areas, and foci, the papers are bound by their authors' common bond to Yuki.
The volume consists of six essays by S.-Y. Kuroda on narrative theory, with a substantial introduction, notes, a bibliography and an index of proper names. This is the English version of a French critical edition published by Editions Armand Colin in their "Recherches" series in October 2012, translated from English by Cassian Braconnier, Tiên Fauconnier and Sylvie Patron, edition with an introduction and notes by Sylvie Patron.
1. Two main themes connect the papers on Japanese syntax collected in this volume: movements of noun phrases and case marking, although each in turn relates to other issues in syntax and semantics. These two themes can be traced back to my 1965 MIT dissertation. The problem of the so-called topic marker wa is a perennial problem in Japanese linguistics. I devoted Chapter 2 of my dissertation to the problem of wa. My primary concern there was transformational genera tive syntax. I was interested in the light that Chomsky'S new theory could shed on the understanding of Japanese sentence structure. I generalized the problem of deriving wa-phrases to the problem of deriving phrases accompanied by the quantifier-like particles mo, demo, sae as well as wa. These particles, mo, demo and sae may roughly be equated with a/so, or something like it and even, respectively, and are grouped together with wa under the name of huku-zyosi as a subcategory of particles in Kokugogaku, Japanese scholarship on Japanese grammar. This taxonomy itself is a straightforward consequence of distributional analysis, and does not require the mechanisms of transformational grammar. My transformational analysis of wa, and by extension, that of the other huku zyosi, consisted in formally relating the function of the post-nominal use of wa to that of the post-predicative use by means of what I called an attachment transformation.
The volume is from the proceedings of the international conference held in celebration of Stanley Osher's sixtieth birthday. It presents recent developments and exciting new directions in scientific computing and partial differential equations for time dependent problems and its interplay with other fields, such as image processing, computer vision and graphics. Over the past decade, there have been very rapid developments in the field. This volume emphasizes the strong interaction of advanced mathematics with real-world applications and algorithms. The book is suitable for graduate students and research mathematicians interested in scientific computing and partial differential equations.
This book has been written from two points of view: firstly, from the viewpoint of those who are involved in the diagnosis and treatment of lymphoid malignancies, who must meet the challenge of integrating the new biological insights into their knowledge of these diseases; and secondly, from the viewpoint of those who are involved in basic biological approaches to malignancy and immunology, who wish to know more about the function of the lymphoid tissues and their malignant diseases. Neoplasia of lymphocytes is a focus for considering many of the most important biological advances impinging on cancer in the past two or three decades, because malignant lymphoproliferative diseases offer unequalled opportunities for studying many aspects of cancer. We probably know more about lymphocytes than other normal cells because of the ease with which they can be obtained. For the same reason we probably know more about malignant lymphocytes. One or other aspect of most of the momentous advances in biology of the past two or three decades has implications for lymphoid malignancies: hybridoma technology and the use of monoclonal antibodies, gene technology, the understanding of oncogenes and growth factors in the control of growth and differentiation, insights into causation of cancer by potent tumour promoters such as the phorbol esters and by viruses, and knowledge of the control of growth function of lymphocytes themselves. Conversely, many of the advances in understanding lym phocytic leukaemias and lymphomas have implications for other cancers.
This volume is the outgrowth of a Special Session on Geometry, held at the November 1987 meeting of the AMS at the University of California at Los Angeles. The unusually well-attended session attracted more than sixty participants and featured over forty addresses by some of the day's outstanding geometers. By common consent, it was decided that the papers to be collected in the present volume should be surveys of relatively broad areas of geometry, rather than detailed presentations of new research results. A comprehensive survey of the field is beyond the scope of a volume such as this. Nonetheless, the editors have sought to provide all geometers, whatever their specialties, with some insight into recent developments in a variety of topics in this active area of research.
The theory of concurrent engineering is based on the concept that the different phases of a product lifecycle should be conducted concurrently and initiated as early as possible within the product creation process. Concurrent engineering is important in many industries, including automotive, aerospace, shipbuilding, consumer goods and environmental engineering, as well as in the development of new services and service support. This book presents the proceedings of the 21st ISPE Inc. International Conference on Concurrent Engineering, held at Beijing Jiaotong University, China, in September 2014. It is the first volume of a new book series: 'Advances in Transdisciplinary Engineering'. The title of the CE2014 conference is: 'Moving Integrated Product Development to Service Clouds in the Global Economy', which reflects the variety of processes and methods which influence modern product creation. After an initial first section presenting the keynote papers, the remainder of the book is divided into 11 further sections with peer-reviewed papers: product lifecycle management (PLM); knowledge-based engineering (KBE); cloud approaches; 3-D printing applications; design methods; educational methods and achievements; simulation of complex systems; systems engineering; services as innovation and science; sustainability; and recent research on open innovation in concurrent engineering. The book will be of interest to CE researchers, practitioners from industry and public bodies, and educators alike.
This volume is the outgrowth of a Special Session on Geometry, held at the November 1987 meeting of the AMS at the University of California at Los Angeles. The unusually well-attended session attracted more than sixty participants and featured over forty addresses by some of the day's outstanding geometers. By common consent, it was decided that the papers to be collected in the present volume should be surveys of relatively broad areas of geometry, rather than detailed presentations of new research results. A comprehensive survey of the field is beyond the scope of a volume such as this. Nonetheless, the editors have sought to provide all geometers, whatever their specialties, with some insight into recent developments in a variety of topics in this active area of research.
This book is written for the biochemist, biophysicist or cell biologist, who is interested in applying Resonance Energy Transfer to study proteins, membranes and other biological systems. It is a handbook that provides a wealth of information an Förster distances, quantum yields and other spectroscopic parameters, and can, therefore, assist in choosing the Donor-Acceptor pairs that are most suitable for tackling the problem at hand. The book also gives a clear and virtually complete overview of the theory including limits on the orientation factor, effects of motion on transfer, concentration depolarization, and limitations of the technique. It contains a large number of tables and diagrams, is accessible to the beginning graduate student and is suitable as a supplementary text for courses on biophysical techniques.
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