Du (computer science, City U. of Hong Kong) and Hwant (applied mathematics, National Chiao Tung U., Taiwan) assemble the theories and applications of a technique for testing blood on a large scale economically. They say it was developed about 50 years ago, but went dormant when the immediate need passed, and think it might be useful again now what with the AIDS epidemic and all. They mention no date for the first edition; not only have they updated results and corrected errors here, they have also incorporated the recent extensive application of non-adaptive group testing to the clone library screening problem. Annotation copyrighted by Book News, Inc., Portland, OR
The need for optimal partition arises from many real-world problems involving the distribution of limited resources to many users. The clustering problem, which has recently received a lot of attention, is a special case of optimal partitioning. This book is the first attempt to collect all theoretical developments of optimal partitions, many of them derived by the authors, in an accessible place for easy reference. Much more than simply collecting the results, the book provides a general framework to unify these results and present them in an organized fashion. Many well-known practical problems of optimal partitions are dealt with. The authors show how they can be solved using the theory OCo or why they cannot be. These problems include: allocation of components to maximize system reliability; experiment design to identify defectives; design of circuit card library and of blood analyzer lines; abstraction of finite state machines and assignment of cache items to pages; the division of property and partition bargaining as well as touching on those well-known research areas such as scheduling, inventory, nearest neighbor assignment, the traveling salesman problem, vehicle routing, and graph partitions. The authors elucidate why the last three problems cannot be solved in the context of the theory.
The need of optimal partition arises from many real-world problems involving the distribution of limited resources to many users. The OC clusteringOCO problem, which has recently received a lot of attention, is a special case of optimal partitioning. This book is the first attempt to collect all theoretical developments of optimal partitions, many of them derived by the authors, in an accessible place for easy reference. Much more than simply collecting the results, the book provides a general framework to unify these results and present them in an organized fashion. Many well-known practical problems of optimal partitions are dealt with. The authors show how they can be solved using the theory OCo or why they cannot be. These problems include: allocation of components to maximize system reliability; experiment design to identify defectives; design of circuit card library and of blood analyzer lines; abstraction of finite state machines and assignment of cache items to pages; the division of property and partition bargaining as well as touching on those well-known research areas such as scheduling, inventory, nearest neighbor assignment, the traveling salesman problem, vehicle routing, and graph partitions. The authors elucidate why the last three problems cannot be solved in the context of the theory.
Pooling designs have been widely used in various aspects of DNA sequencing. In biological applications, the well-studied mathematical problem called “group testing” shifts its focus to nonadaptive algorithms while the focus of traditional group testing is on sequential algorithms. Biological applications also bring forth new models not previously considered, such as the error-tolerant model, the complex model, and the inhibitor model. This book is the first attempt to collect all the significant research on pooling designs in one convenient place.The coverage includes many real biological applications such as clone library screening, contig sequencing, exon boundary finding and protein-protein interaction detecting and introduces the mathematics behind it.
The first edition of this book was the first to cover in depth the mathematical theory of nonblocking multistage interconnecting networks, which is applicable to both communication and computer networks. This comprehensively updated new edition not only introduces the classical theory of the fundamental point-to-point network but also has a renewed emphasis on the latest multicast and multirate networks. The book can serve as either a one- or two-semester textbook for graduate students of information science, (electronic) communications, and applied mathematics. In addition, as all the relevant literature is organized and evaluated under one structured framework, the volume is an essential reference for researchers in those areas.
Group testing has been used in medical, chemical and electrical testing, coding, drug screening, pollution control, multiaccess channel management, and recently in data verification, clone library screening and AIDS testing. The mathematical model can be either combinatorial or probabilistic. This book summarizes all important results under the combinatorial model, and demonstrates their applications in real problems. Some other search problems, including the famous counterfeit-coins problem, are also studied in depth. There are two reasons for publishing a second edition of this book. The first is the usual need to update the text (after six years) and correct errors. The second - and more important - reason is to accommodate the recent sudden growth of interest in applying the idea of group testing to clone library screening. This development is much more than just a new application, since the new application brings with it new objectives which require a new twist of theory. It also embraces the growing importance of two topics: nonadaptive algorithms and error tolerance. Two new chapters, one on clone library screening and the other on error tolerance, have been added. Also included is a new chapter on counterfeit coins, the most famous search problem historically, which recently drew on an unexpected connection to some deep mathematical theory to yield new results. Finally, the chapters have been reorganized into parts to provide focuses and perspectives.
The need for optimal partition arises from many real-world problems involving the distribution of limited resources to many users. The “clustering” problem, which has recently received a lot of attention, is a special case of optimal partitioning. This book is the first attempt to collect all theoretical developments of optimal partitions, many of them derived by the authors, in an accessible place for easy reference. Much more than simply collecting the results, the book provides a general framework to unify these results and present them in an organized fashion.Many well-known practical problems of optimal partitions are dealt with. The authors show how they can be solved using the theory — or why they cannot be. These problems include: allocation of components to maximize system reliability; experiment design to identify defectives; design of circuit card library and of blood analyzer lines; abstraction of finite state machines and assignment of cache items to pages; the division of property and partition bargaining as well as touching on those well-known research areas such as scheduling, inventory, nearest neighbor assignment, the traveling salesman problem, vehicle routing, and graph partitions. The authors elucidate why the last three problems cannot be solved in the context of the theory.
The workshop brought together experts in genetics, molecular and cellular biology, physiology, engineering, physics, mathematics, audiology and medicine to present current work and to review the critical issues of inner ear function. A special emphasis of the workshop was on analytical model based studies. Experimentalists and theoreticians thus shared their points of view. The topics ranged from consideration of the hearing organ as a system to the study and modeling of individual auditory cells including molecular aspects of function. Some of the topics in the book are: motor proteins in hair cells; mechanical and electrical aspects of transduction by motor proteins; function of proteins in stereocilia of hair cells; production of acoustic force by stereocilia, mechanical properties of hair cells and the organ of Corti; mechanical vibration of the organ of Corti; wave propagation in tissue and fluids of the inner ear; sound amplification in the cochlea; critical oscillations; cochlear nonlinearity, and mechanisms for the production of otoacoustic emissions. This book will be invaluable to researchers and students in auditory science. Sample Chapter(s). Chapter 1: Medial-Olivocochlear-Efferent Effects on Basilar-Membrane and Auditory-Nerve Responses to Clicks: Evidence for a New Motion within the Cochlea (1,013 KB). Contents: Whole Organ Mechanics: Medial-Olivocochlear-Efferent Effects on Basilar-Membrane and Auditory-Nerve Responses to Clicks: Evidence for a New Motion Within the Cochlea (J J Guinan Jr et al.); Atomic Force Microscopic Imaging of the Intracellular Membrane Surface of Prestin-Expressing Chinese Hamster Ovary Cells (H Wada et al.); Biomechanics of Dolphin Hearing: A Comparison of Middle and Inner Ear Stiffness with Other Mammalian Species (B S Miller et al.); Hair Cells: An Experimental Preparation of the Mammalian Cochlea That Displays Compressive Nonlinearity In Vitro (A J Hudspeth & D K Chan); OC Area Change ParadoxOCO in Outer Hair Cells Membrane Motor (K H Iwasa); Outer Hair Cell Mechanics are Altered by Developmental Changes in Lateral Wall Protein Content (H C Jensen-Smith & R Hallworth); Stereocilia: Signal Transformation by Mechanotransducer Channels of Mammalian Outer Hair Cells (R Fettiplace et al.); The Cochlear Amplifier: Is it Hair Bundle Motion of Outer Hair Cells? (S Jia et al.); Emissions: Comparative Mechanisms of Auditory Function: Ground Sound Detection by Golden Moles (P M Narins); The Biophysical Origin of Otoacoustic Emissions (J H Siegel); A Comparative Study of Evoked Otoacoustic Emissions in Geckos and Humans (C Bergevin et al.); Cochlear Models: The Cochlea Box Model Once Again: Improvements and New Results (R Nobili & A Vetein k); The Evolution of Multi-compartment Cochlear Models (A E Hubbard et al.); and other papers. Readership: Graduate students and academics in medicine and otolaryngology; ear, nose and throat specialists; neuroscientists; neurobiologists.
The need of optimal partition arises from many real-world problems involving the distribution of limited resources to many users. The “clustering” problem, which has recently received a lot of attention, is a special case of optimal partitioning. This book is the first attempt to collect all theoretical developments of optimal partitions, many of them derived by the authors, in an accessible place for easy reference. Much more than simply collecting the results, the book provides a general framework to unify these results and present them in an organized fashion.Many well-known practical problems of optimal partitions are dealt with. The authors show how they can be solved using the theory — or why they cannot be. These problems include: allocation of components to maximize system reliability; experiment design to identify defectives; design of circuit card library and of blood analyzer lines; abstraction of finite state machines and assignment of cache items to pages; the division of property and partition bargaining as well as touching on those well-known research areas such as scheduling, inventory, nearest neighbor assignment, the traveling salesman problem, vehicle routing, and graph partitions. The authors elucidate why the last three problems cannot be solved in the context of the theory.
Contains papers from a July 1997 workshop, covering a variety of issues related to network switching, including network environment, routing, network topology, switching components, nonblockingness, and optimization. Specific topics include modeling the blocking behavior of Clos networks, isomorphism of classical rearrangeable networks, characterizing bit permutation networks, and multispace search for quorumcast routing. Of interest to research mathematicians and graduate students studying discrete math and graph theory, as well as computer scientists and electronic engineers. No index. Annotation copyrighted by Book News, Inc., Portland, OR.
This book is a collection of surveys and exploratory articles about recent developments in the field of computational Euclidean geometry. Topics covered include the history of Euclidean geometry, Voronoi diagrams, randomized geometric algorithms, computational algebra, triangulations, machine proofs, topological designs, finite-element mesh, computer-aided geometric designs and Steiner trees. This second edition contains three new surveys covering geometric constraint solving, computational geometry and the exact computation paradigm.
A detailed study in this book on the Biblical allegory of grafting wild olive branches onto the cultivated olive tree in Romans 11:17-24 enables the fresh interpretation of this allegory, and provides the Biblical basis for a new strategy for Christian missions and evangelism. This strategy is reviewed and validated against the Bible and church history. This strategy would be especially effective in reaching peoples of other religions. At a time when Christianity has failed to penetrate into societies that are dominated by the great religions of the world, the contents of this book will provide new discussion material for Christian missionaries, missiologists and evangelists. Beyond this, this book would also be an exciting and interesting read for Biblical scholars and students who have been wondering about the unreal grafting allegory in these Romans verses, and for those Christians who are interested in Bible study, and Christian missions and evangelism in general.
Leading Scholars Blend Cutting-Edge Science with Practical Experience to Reveal Evidence-Based Best Practices Edited by three leading authorities on nonverbal behavior, this book examines state-of-the-art research and knowledge regarding nonverbal behavior and applies that scientific knowledge to a broad range of fields. The editors present a true scientist–practitioner model, blending cutting-edge behavioral science with real-world practical experience, thus making this text the first of its kind to merge theoretical and practical worlds. This book is a valuable resource for students and professionals as it explores the science behind the practice and reveals how other professionals have effectively incorporated nonverbal communication into their fields. This book serves as an excellent text or supplement for courses/seminars in nonverbal behavior, nonverbal communication, human interaction, profiling, security management, and homeland security, as well as courses in interviewing and qualitative analysis.
Reliability problems arise with increasing frequency as our systems of telecommunications, information transmission, transportation, and distribution become more and more complex. In December 1989 at DIMACS at Rutgers University, a Workshop on Reliability of Computer and Communication Networks was held to examine the discrete mathematical methods relevant to these problems. There were nearly ninety participants, including theoretical mathematicians, computer scientists, and electrical engineers from academia and industry, as well as network practitioners, engineers, and reliability planners from leading companies involved in the use of computer and communications networks. This volume, published jointly with the Association for Computing Machinery, contains the proceedings from this Workshop. The aim of the Workshop was to identify the latest trends and important open problems, as well as to survey potential practical applications.The Workshop explored questions of computation of reliability of existing systems and of creating new designs to insure high reliability, in addition to the closely related notion of survivability. Redundancy, single stage and multistage networks, interconnected networks, and fault tolerance were also covered. The Workshop emphasized practical applications, with many invited speakers from a variety of companies which are dealing with practical network reliability problems. The success of the Workshop in fostering many new interactions among researchers and practitioners is reflected in the proceedings, which provide an exciting look at some of the major advances at the forefront of this important field of research.
The articles collected in this book were presented at the DIMACS Workshop on Network Switching, held in July 1997 at Princeton University. These papers cover a variety of issues related to network switching, including network environment, routing, network topology, switching components, nonblockingness, and optimization.
This book examines state-of-the-art research and knowledge regarding nonverbal behaviour and applies that scientific knowledge to a broad range of fields. It presents a true scientist-practitioner model, blending cutting-edge behavioural science with real-world practical experience.
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