The observation of nature has been the inspiration for many materials, laws, and theories, as well as computational methods. Nature-Inspired computing Design, Development, and Applications covers all the main areas of natural computing, from methods to computationally synthesized natural phenomena, to computing paradigms based on natural materials. This volume is comprised of ideas and research from nature to develop computational systems or materials to perform computation. Researchers, academic educators, and professionals will find a comprehensive view of all aspects of natural computing with emphasis on its main branches.

The Textbook of Ion Channels is a set of three volumes providing a wide-ranging reference source on ion channels for students, instructors, and researchers. Ion channels are membrane proteins that control the electrical properties of neurons and cardiac cells, mediate the detection and response to sensory stimuli like light, sound, odor, and taste, and regulate the response to physical stimuli like temperature and pressure. In non-excitable tissues, ion channels are instrumental for the regulation of basic salt balance that is critical for homeostasis. Ion channels are located at the surface membrane of cells, giving them the unique ability to communicate with the environment, as well as the membrane of intracellular organelles, allowing them to regulate internal homeostasis. Ion channels are fundamentally important for human health and diseases, and are important targets for pharmaceuticals in mental illness, heart disease, anesthesia, pain and other clinical applications. The modern methods used in their study are powerful and diverse, ranging from single ion-channel measurement techniques to models of ion channel diseases in animals, and human clinical trials for ion channel drugs. All three volumes give the reader an introduction to fundamental concepts needed to understand the mechanism of ion channels, a guide to the technical aspects of ion channel research, offer a modern guide to the properties of major ion channel families, and include coverage of key examples of regulatory, physiological, and disease roles for ion channels.

This book bridges the communication gap between neuroscientists and engineers through the unifying theme of correlation-based learning

Developing brain-style signal processing or machine learning algorithms has attracted many sharp minds from a range of disciplines. Now, coauthored by four researchers with varying backgrounds in signal processing, neuroscience, psychology, and computer science, Correlative Learning unifies the many cross-fertilized ideas in computational neuroscience and signal processing in a common language that will help engineers understand and appreciate the human brain as a highly sophisticated biosystem for building more intelligent machines.

First, the authors present the necessary neuroscience background for engineers, and then go on to relate the common intrinsic structures of the learning mechanisms of the brain to signal processing, machine learning, kernel learning, complex-valued domains, and the ALOPEX learning paradigm.

This correlation-based approach to building complex, reliable (robust), and adaptive systems is vital for engineers, researchers, and graduate students from various fields of science and engineering. Figures, tables, worked examples, and case studies illustrate how to use computational tools for either helping to understand brain functions or fitting specific engineering applications, and a comprehensive bibliography covering over 1,000 references from major publications is included for further reading.

From the basic theory of biomedical photonics to its application in the field of biomedical photonics, this book summarizes the current research hotspots, research ideas, applied technologies and methods, as well as the future development trend of biomedical photonics.

The Core Model: A Collaborative Paradigm for the Pharmaceutical Industry and Global Health Care develops the innovative core model, an organizational research and design paradigm and economic theory that proposes a collaborative approach to resolving global health issues and improving the productivity of drug development. The model proposes that scientific collaboration does not occur in an unstructured manner, but actually takes place within a highly structured order where knowledge is transferred, integrated and finally translated into commercial products. An understanding of this model will help solve the global pharmaceutical industrys productivity problems and address important global health care and economic issues. This book is useful to researchers, advanced students, regulators, and management in pharmaceutical industries, as well as healthcare professionals, those working in health economics, and those interested in scientific innovation processes.

Streptomycetes are unusually complex bacteria that are abundant in soil. They grow as branching filaments and form chains of spores. Most importantly, they have an extraordinary ability to make antibiotics, for which they are the main industrial source, as well as other metabolites with medicinal properties. In recent years, the search for new antibiotics and other drugs in streptomycetes has been augmented by genomic studies, genome mining, and new biotechnological approaches. With contributions from some of the leading scientists in the field, this book documents recent research and development in streptomycetes genomics, physiology, and metabolism. With a focus on biotechnology and genomics, the book provides an excellent source of up-to-date information. Topics include: genome architecture * conjugative genetic elements * differentiation * protein secretion * central carbon metabolic pathways * regulation of nitrogen assimilation * phosphate control of metabolism * gamma-butyrolactones and their role in antibiotic regulation * clavulanic acid and clavams * genome-guided exploration * gene clusters for bioactive natural products * genomics of cytochromes p450. The book is essential reading for research scientists, biotechnologists, graduate students, and other professionals involved in streptomycetes research, antibiotic and antimicrobial development, drug discovery, soil microbiology and related fields. It is a recommended text for all microbiology laboratories.

Advances in Phytonanotechnology: From Synthesis to Application guides readers through various applications of nanomaterials on plants by presenting the latest research related to nanotechnology and nanomaterials on plant systems. The book focuses on the effects of these applications on plant morphology, physiology, biochemistry, ecology and genetics. Sections cover the impact on plant yield, techniques, a review of positive and negative impacts, and an overview of current policies regarding the use of nanotechnology on plants. Additionally, the book offers insights into the appropriate application of nanoscience to plants and crops for improved outcome and an exploration of their bioavailability and toxicity in the environment.

Microencapsulations may be found in a number of fields like medicine, drug delivery, biosensing, agriculture, catalysis, intelligent microstructures and in many consumer goods. This new edition of Microencapsulation revises chapters to address the newest innovations in fields and adds three new chapters on the uses of microencapsulations in medicine, agriculture, and consumer products.

The Keller-Segel model for chemotaxis is a prototype of nonlocal systems describing concentration phenomena in physics and biology. While the two-dimensional theory is by now quite complete, the questions of global-in-time solvability and blowup characterization are largely open in higher dimensions. In this book, global-in-time solutions are constructed under (nearly) optimal assumptions on initial data and rigorous blowup criteria are derived.

Phyto-pathogens are one of the dominating components which badly affect crop production. In light of the global food demand, sustainable agricultural plans utilizing agrochemicals became necessary. The role of beneficial microbes in the defense priming of host plants has been well documented. This book details new aspects of microbial-assisted plant protection and their role in agricultural production, economy, and environmental sustainability.

An A-to-Z overview of eugenics - one of the most controversial scientific and cultural movements of the last century Eugenics - the theory that we can improve future generations of humans through selective breeding - was one of the most controversial movements of the early 20th century. Often tied to racist beliefs and nativist desires to limit immigration, the eugenics movement attracted some of the most prominent scientists and social reformers of the day. This encyclopedia brings into one place concise descriptions of the leading figures, organizations, events, legislation, publications, concepts, and terms of this vitally important historical movement. Although focused on the United States during the heyday of the movement, the encyclopedia includes material on international events as well as connections to important contemporary issues such as genetic engineering, family balancing, and the possibility of human cloning. 250 entries on such topics as: inherited conditions such as alcoholism, prostitution, poverty, and criminality that eugenicists thought could be eliminated by following eugenic methods; concepts such as feeblemindedness, race degeneracy, and race suicide that were pervasive during the era of the eugenics movement; tools that eugenicists relied on, such as laws that allowed forced sterilizations of the unfit; organizations that encouraged the fit to produce more children; the continued acceptance of attempts to improve future generations through genetic testing and treatment. The book includes photographs, a chronology of events, and an extensive bibliography of works for further information.. Examines a controversial aspect of scientific history. Discusses how contemporary controversies over genetic engineering relate to the eugenics theories of the past

"J R not only focuses on creation itself, but he also addresses the impact of words upon its primal beginning and its controversies."

-Congressman Trent Franks

God spoke the words of creation, but Scripture does not elaborate on the intricacies of this action. In "SpiritQuest 2: Interface with Creation," author JR McElfresh investigates many of the issues and controversies related to creation and considers the lack of answers to key questions.

Designed for pastors, church leaders, and those who desire to learn more about pivotal creation issues and how the universe began, "SpiritQuest 2: Interface with" "Creation "probes into the issues of the relationship between scientific knowledge and the Word of God. This study takes a journey through quarks, quantum mechanics, sound, waveforms, creation's voice, energy, the miracles of Jesus, and a host of discoveries showing the relationship between God himself and the physical laws of the universe.

McElfresh elaborates on the importance of the spoken and written word in Scripture, science, and the arena of linguistics in relation to creation; he also discusses the far-reaching impact of words as sounds and visual images on the human mind and thought. "SpiritQuest 2: Interface with Creation "demonstrates that words have immense power and energy and that it is wise to know how to use them.