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Fundamentals of Materials Science and Engineering: An Integrated Approach (Wiley Plus Products Ser.)

Fundamentals of Mathematical Evolutionary Genetics (Mathematics and its Applications #22)

Fundamentals of Measurement and Signal Analysis

This book introduces the basic analysis methods in signal processing, principles of various sensors and the concept of measurement system. To make students better understand and apply the theories, the book includes many MATLAB examples, such as the generation of standard signals and the spectrum analysis of audio signals in the signal processing part and Arduino examples as well, such as temperature measuring and ultrasonic ranging to show the applications of sensors. Readers can not only learn the fundamental theories but also get many opportunities to apply the theories to perform measurement tasks.

Fundamentals of Mechanical Vibrations (Wiley-ASME Press Series)

This introductory book covers the most fundamental aspects of linear vibration analysis for mechanical engineering students and engineers. Consisting of five major topics, each has its own chapter and is aligned with five major objectives of the book. It starts from a concise, rigorous and yet accessible introduction to Lagrangian dynamics as a tool for obtaining the governing equation(s) for a system, the starting point of vibration analysis. The second topic introduces mathematical tools for vibration analyses for single degree-of-freedom systems. In the process, every example includes a section Exploring the Solution with MATLAB. This is intended to develop student's affinity to symbolic calculations, and to encourage curiosity-driven explorations. The third topic introduces the lumped-parameter modeling to convert simple engineering structures into models of equivalent masses and springs. The fourth topic introduces mathematical tools for general multiple degrees of freedom systems, with many examples suitable for hand calculation, and a few computer-aided examples that bridges the lumped-parameter models and continuous systems. The last topic introduces the finite element method as a jumping point for students to understand the theory and the use of commercial software for vibration analysis of real-world structures.

Fundamentals of Mechanical Vibrations (Wiley-ASME Press Series)

This introductory book covers the most fundamental aspects of linear vibration analysis for mechanical engineering students and engineers. Consisting of five major topics, each has its own chapter and is aligned with five major objectives of the book. It starts from a concise, rigorous and yet accessible introduction to Lagrangian dynamics as a tool for obtaining the governing equation(s) for a system, the starting point of vibration analysis. The second topic introduces mathematical tools for vibration analyses for single degree-of-freedom systems. In the process, every example includes a section Exploring the Solution with MATLAB. This is intended to develop student's affinity to symbolic calculations, and to encourage curiosity-driven explorations. The third topic introduces the lumped-parameter modeling to convert simple engineering structures into models of equivalent masses and springs. The fourth topic introduces mathematical tools for general multiple degrees of freedom systems, with many examples suitable for hand calculation, and a few computer-aided examples that bridges the lumped-parameter models and continuous systems. The last topic introduces the finite element method as a jumping point for students to understand the theory and the use of commercial software for vibration analysis of real-world structures.

Fundamentals of Mechanics of Robotic Manipulation (Intelligent Systems, Control and Automation: Science and Engineering #27)

This book has evolved from a course on Mechanics of Robots that the author has thought for over a dozen years at the University of Cassino at Cassino, Italy. It is addressed mainly to graduate students in mechanical engineering although the course has also attracted students in electrical engineering. The purpose of the book consists of presenting robots and robotized systems in such a way that they can be used and designed for industrial and innovative non-industrial applications with no great efforts. The content of the book has been kept at a fairly practical level with the aim to teach how to model, simulate, and operate robotic mechanical systems. The chapters have been written and organized in a way that they can be red even separately, so that they can be used separately for different courses and readers. However, many advanced concepts are briefly explained and their use is empathized with illustrative examples. Therefore, the book is directed not only to students but also to robot users both from practical and theoretical viewpoints. In fact, topics that are treated in the book have been selected as of current interest in the field of Robotics. Some of the material presented is based upon the author’s own research in the field since the late 1980’s.

Fundamentals of Mechanics of Robotic Manipulation (Mechanisms and Machine Science #112)

The book explores the fundamental issues of robot mechanics for both the analysis and design of manipulations, manipulators and grippers, taking into account a central role of mechanics and mechanical structures in the development and use of robotic systems with mechatronic design. It examines manipulations that can be performed by robotic manipulators. The contents of the book are kept at a fairly practical level with the aim to teach how to model, simulate, and operate robotic mechanical systems. The chapters have been written and organized in a way that they can be red even separately, so that they can be used separately for different courses and purposes. The introduction illustrates motivations and historical developments of robotic mechanical systems. Chapter 2 describes the analysis and design of manipulations by automatic machinery and robots; chapter 3 deals with the mechanics of serial-chain manipulators with the aim to propose algorithms for analysis, simulation, and design purposes; chapter 4 introduces the mechanics of parallel manipulators; chapter 5 addresses the attention to mechanical grippers and related mechanics of grasping.

Fundamentals of Mechanisms and Machines

This book is all about mechanisms and machines, one of the most important core subjects of mechanical engineering. There are many ways a mechanism can be configured and there are many mechanisms in a machine, creating a tremendous opportunity to build better machines of our choice. To do so, however, one needs to understand the common thread present in the thousands of configurations and to break them down into a set of rules. This book does exactly that, using the same set of rules consistently to explain the design of any mechanism or machine. Pedagogical tools and approaches have been utilized to make it easier and more interesting for the student- extensive illustrations, simple explanations and exercise problems with useful hints have been included. The systematic use of a vector-based approach makes learning easier and helps extend the knowledge acquired in this book to applications in robotics.

Fundamentals of Medical Imaging (3rd Edition) (PDF)

This third edition provides a concise and generously illustrated survey of the complete field of medical imaging and image computing, explaining the mathematical and physical principles and giving the reader a clear understanding of how images are obtained and interpreted. Medical imaging and image computing are rapidly evolving fields, and this edition has been updated with the latest developments in the field, as well as new images and animations. An introductory chapter on digital image processing is followed by chapters on the imaging modalities: radiography, CT, MRI, nuclear medicine and ultrasound. Each chapter covers the basic physics and interaction with tissue, the image reconstruction process, image quality aspects, modern equipment, clinical applications, and biological effects and safety issues. Subsequent chapters review image computing and visualization for diagnosis and treatment. Engineers, physicists and clinicians at all levels will find this new edition an invaluable aid in understanding the principles of imaging and their clinical applications.

Fundamentals of Membrane Bioreactors: Materials, Systems and Membrane Fouling (Springer Transactions in Civil and Environmental Engineering)

This book provides a critical, carefully researched, up-to-date summary of membranes for membrane bioreactors. It presents a comprehensive and self-contained outline of the fundamentals of membrane bioreactors, especially their relevance as an advanced water treatment technology. This outline helps to bring the technology to the readers’ attention, and positions the critical topic of membrane fouling as one of the key impediments to its more widescale adoption. The target readership includes researchers and industrial practitioners with an interest in membrane bioreactors.

Fundamentals of Metal Joining: Processes, Mechanism and Performance

This textbook provides fundamental understanding on technological aspects related to arc welding, heat flow, relevant metallurgical transformations, and quality assurance methodologies joints. It has been composed keeping in purview the requirements of those interested in research and development in the field of metal joining. The contents focus on the fundamentals of physics of welded joints, arc welding processes, brazing and soldering, heat flow in welding, welding metallurgy, design of welded joints, and inspection and testing of welded joints and weldability of metals. This book will be useful to both academics and those in the industry.

Fundamentals of Metal Machining and Machine Tools

Reflecting changes in machining practice, Fundamentals of Machining and Machine Tools, Third Edition emphasizes the economics of machining processes and design for machining. This edition includes new material on super-hard cutting tool materials, tool geometries, and surface coatings. It describes recent developments in high-speed machining, hard machining, and cutting fluid applications such as dry and minimum-quantity lubrication machining. It also presents analytical methods that outline the limitations of various approaches. This edition features expanded information on tool geometries for chip breaking and control as well as improvements in cost modeling of machining processes.

Fundamentals of Metal Machining and Machine Tools

Reflecting changes in machining practice, Fundamentals of Machining and Machine Tools, Third Edition emphasizes the economics of machining processes and design for machining. This edition includes new material on super-hard cutting tool materials, tool geometries, and surface coatings. It describes recent developments in high-speed machining, hard machining, and cutting fluid applications such as dry and minimum-quantity lubrication machining. It also presents analytical methods that outline the limitations of various approaches. This edition features expanded information on tool geometries for chip breaking and control as well as improvements in cost modeling of machining processes.

Fundamentals of Metallurgical Thermodynamics

This book highlights introduction of thermodynamics; first law, second law, third law of thermodynamics and their applications; concepts of entropy, free energies, thermodynamic equilibrium, thermodynamic activity and fugacity; Maxwell relations; Gibbs-Helmholtz equation; Clausis-Clayperon equation, etc. have been discussed in detail and made easily understandable to the undergraduate students of metallurgy. Thermodynamics involved in formation of different types of solutions (ideal, real and regular solutions) has also been discussed in detail. This book also discusses the applications of various thermodynamic properties in different metallurgical operations. At the end of each and every chapter, different types of typical related problems have also been solved.

Fundamentals of Microelectronics

Fundamentals of Microfabrication: The Science of Miniaturization, Second Edition

MEMS technology and applications have grown at a tremendous pace, while structural dimensions have grown smaller and smaller, reaching down even to the molecular level. With this movement have come new types of applications and rapid advances in the technologies and techniques needed to fabricate the increasingly miniature devices that are literally changing our world.A bestseller in its first edition, Fundamentals of Microfabrication, Second Edition reflects the many developments in methods, materials, and applications that have emerged recently. Renowned author Marc Madou has added exercise sets to each chapter, thus answering the need for a textbook in this field.Fundamentals of Microfabrication, Second Edition offers unique, in-depth coverage of the science of miniaturization, its methods, and materials. From the fundamentals of lithography through bonding and packaging to quantum structures and molecular engineering, it provides the background, tools, and directions you need to confidently choose fabrication methods and materials for a particular miniaturization problem.New in the Second EditionRevised chapters that reflect the many recent advances in the fieldUpdated and enhanced discussions of topics including DNA arrays, microfluidics, micromolding techniques, and nanotechnology In-depth coverage of bio-MEMs, RF-MEMs, high-temperature, and optical MEMs.Many more links to the WebProblem sets in each chapter

Fundamentals of Microfabrication and Nanotechnology, Three-Volume Set

Now in its third edition, Fundamentals of Microfabrication and Nanotechnology continues to provide the most complete MEMS coverage available. Thoroughly revised and updated the new edition of this perennial bestseller has been expanded to three volumes, reflecting the substantial growth of this field. It includes a wealth of theoretical and practical information on nanotechnology and NEMS and offers background and comprehensive information on materials, processes, and manufacturing options. The first volume offers a rigorous theoretical treatment of micro- and nanosciences, and includes sections on solid-state physics, quantum mechanics, crystallography, and fluidics. The second volume presents a very large set of manufacturing techniques for micro- and nanofabrication and covers different forms of lithography, material removal processes, and additive technologies. The third volume focuses on manufacturing techniques and applications of Bio-MEMS and Bio-NEMS. Illustrated in color throughout, this seminal work is a cogent instructional text, providing classroom and self-learners with worked-out examples and end-of-chapter problems. The author characterizes and defines major research areas and illustrates them with examples pulled from the most recent literature and from his own work.

Fundamentals of Microfabrication and Nanotechnology, Three-Volume Set

Now in its third edition, Fundamentals of Microfabrication and Nanotechnology continues to provide the most complete MEMS coverage available. Thoroughly revised and updated the new edition of this perennial bestseller has been expanded to three volumes, reflecting the substantial growth of this field. It includes a wealth of theoretical and practical information on nanotechnology and NEMS and offers background and comprehensive information on materials, processes, and manufacturing options. The first volume offers a rigorous theoretical treatment of micro- and nanosciences, and includes sections on solid-state physics, quantum mechanics, crystallography, and fluidics. The second volume presents a very large set of manufacturing techniques for micro- and nanofabrication and covers different forms of lithography, material removal processes, and additive technologies. The third volume focuses on manufacturing techniques and applications of Bio-MEMS and Bio-NEMS. Illustrated in color throughout, this seminal work is a cogent instructional text, providing classroom and self-learners with worked-out examples and end-of-chapter problems. The author characterizes and defines major research areas and illustrates them with examples pulled from the most recent literature and from his own work.

Fundamentals of Microgrids: Development and Implementation

Microgrids provide a back-to-the-future solution for electrical energy systems. They provide opportunities to develop new electrical networks targeted for the needs of communities. The fourth industrial revolution is associated with the global trend toward decentralizing energy grids. Within this context, microgrids are seen as a solution to how renewable electricity can be supplied to local areas. The Fundamentals of Microgrids: Development and Implementation provides an in-depth examination of microgrid energy sources, applications, technologies, and policies. This book considers the fundamental configurations and applications for microgrids. This research-based work examines the use of microgrids as a means of meeting international sustainability goals. It focuses on questions and issues associated with microgrid topologies, development, implementation, and regulatory issues. When and why are microgrids needed? What type of microgrids are being developed and how are they configured? How are renewables linked to microgrids? How are energy storage systems used in microgrids? What workable models exist for hybrid generation solutions that apply to microgrids? How are microgrids evolving? What is an advanced or smart microgrid? These questions and more are answered in detail. Distributed energy resources are defined, standalone generation systems are described, and examples of typical microgrid configurations are provided. The key components of developing a business model for microgrid development are also considered. Microgrids offer alternatives to grid-supplied electrical power. Microgrids must have the equipment necessary to generate electricity, loads or uses for the power generated, other assets such as energy storage, plus a power management system. The technologies they use enable microgrid components to work in concert to provide electrical generation systems with enhanced benefits. Microgrids use both renewable and non-renewable generation systems to improve electrical system reliability for communities, utilities, institutions, commercial entities, and military bases. Key themes addressed in this book include microgrid technologies, drivers for microgrids, types of microgrids, and their components, configurations, and applications. Drivers for microgrids include providing local electrical supply services, resolving environmental concerns, improving resiliency, and lowering the cost of electricity. When thoughtfully designed and carefully deployed, microgrids provide more resilient energy supply systems with greater environmental benefits. FEATURES This book provides answers to the fundamental questions energy managers and other professionals want to know about the basics of microgrids. This book details the applications for microgrids and demystifies the types of microgrid architectures that are successful. It describes what microgrids are and details the basics of how they work while considering benefits of microgrids and their disadvantages. Real-world examples of functioning microgrids are provided which provide models for the development of microgrids in the future. It discusses the key considerations that must be addressed to develop a business case for microgrid development.

Fundamentals of Microgrids: Development and Implementation

Microgrids provide a back-to-the-future solution for electrical energy systems. They provide opportunities to develop new electrical networks targeted for the needs of communities. The fourth industrial revolution is associated with the global trend toward decentralizing energy grids. Within this context, microgrids are seen as a solution to how renewable electricity can be supplied to local areas. The Fundamentals of Microgrids: Development and Implementation provides an in-depth examination of microgrid energy sources, applications, technologies, and policies. This book considers the fundamental configurations and applications for microgrids. This research-based work examines the use of microgrids as a means of meeting international sustainability goals. It focuses on questions and issues associated with microgrid topologies, development, implementation, and regulatory issues. When and why are microgrids needed? What type of microgrids are being developed and how are they configured? How are renewables linked to microgrids? How are energy storage systems used in microgrids? What workable models exist for hybrid generation solutions that apply to microgrids? How are microgrids evolving? What is an advanced or smart microgrid? These questions and more are answered in detail. Distributed energy resources are defined, standalone generation systems are described, and examples of typical microgrid configurations are provided. The key components of developing a business model for microgrid development are also considered. Microgrids offer alternatives to grid-supplied electrical power. Microgrids must have the equipment necessary to generate electricity, loads or uses for the power generated, other assets such as energy storage, plus a power management system. The technologies they use enable microgrid components to work in concert to provide electrical generation systems with enhanced benefits. Microgrids use both renewable and non-renewable generation systems to improve electrical system reliability for communities, utilities, institutions, commercial entities, and military bases. Key themes addressed in this book include microgrid technologies, drivers for microgrids, types of microgrids, and their components, configurations, and applications. Drivers for microgrids include providing local electrical supply services, resolving environmental concerns, improving resiliency, and lowering the cost of electricity. When thoughtfully designed and carefully deployed, microgrids provide more resilient energy supply systems with greater environmental benefits. FEATURES This book provides answers to the fundamental questions energy managers and other professionals want to know about the basics of microgrids. This book details the applications for microgrids and demystifies the types of microgrid architectures that are successful. It describes what microgrids are and details the basics of how they work while considering benefits of microgrids and their disadvantages. Real-world examples of functioning microgrids are provided which provide models for the development of microgrids in the future. It discusses the key considerations that must be addressed to develop a business case for microgrid development.

Fundamentals of Microwave Photonics (Wiley Series in Microwave and Optical Engineering)

A comprehensive resource to designing and constructing analog photonic links capable of high RF performance Fundamentals of Microwave Photonics provides a comprehensive description of analog optical links from basic principles to applications. The book is organized into four parts. The first begins with a historical perspective of microwave photonics, listing the advantages of fiber optic links and delineating analog vs. digital links. The second section covers basic principles associated with microwave photonics in both the RF and optical domains. The third focuses on analog modulation formats—starting with a concept, deriving the RF performance metrics from basic physical models, and then analyzing issues specific to each format. The final part examines applications of microwave photonics, including analog receive-mode systems, high-power photodiodes applications, radio astronomy, and arbitrary waveform generation. Covers fundamental concepts including basic treatments of noise, sources of distortion and propagation effects Provides design equations in easy-to-use forms as quick reference Examines analog photonic link architectures along with their application to RF systems A thorough treatment of microwave photonics, Fundamentals of Microwave Photonics will be an essential resource in the laboratory, field, or during design meetings. The authors have more than 55 years of combined professional experience in microwave photonics and have published more than 250 associated works.

Fundamentals of Microwave Photonics (Wiley Series in Microwave and Optical Engineering)

A comprehensive resource to designing and constructing analog photonic links capable of high RF performance Fundamentals of Microwave Photonics provides a comprehensive description of analog optical links from basic principles to applications. The book is organized into four parts. The first begins with a historical perspective of microwave photonics, listing the advantages of fiber optic links and delineating analog vs. digital links. The second section covers basic principles associated with microwave photonics in both the RF and optical domains. The third focuses on analog modulation formats—starting with a concept, deriving the RF performance metrics from basic physical models, and then analyzing issues specific to each format. The final part examines applications of microwave photonics, including analog receive-mode systems, high-power photodiodes applications, radio astronomy, and arbitrary waveform generation. Covers fundamental concepts including basic treatments of noise, sources of distortion and propagation effects Provides design equations in easy-to-use forms as quick reference Examines analog photonic link architectures along with their application to RF systems A thorough treatment of microwave photonics, Fundamentals of Microwave Photonics will be an essential resource in the laboratory, field, or during design meetings. The authors have more than 55 years of combined professional experience in microwave photonics and have published more than 250 associated works.

Fundamentals of Modern Digital Systems

An ELBS/LPBB edition is available.

Fundamentals of Modern Electric Circuit Analysis and Filter Synthesis: A Transfer Function Approach

This textbook explains the fundamentals of electric circuits and uses the transfer function as a tool to analyze circuits, systems, and filters. The author avoids the Fourier transform and three phase circuits, since these topics are often not taught in circuits courses. General transfer functions for low pass, high pass, band pass and band reject filters are demonstrated, with first order and higher order filters explained in plain language. The author’s presentation is designed to be accessible to a broad audience, with the concepts of circuit analysis explained in basic language, reinforced by numerous, solved examples.

Fundamentals of Modern Electric Circuit Analysis and Filter Synthesis: A Transfer Function Approach

This textbook explains the fundamentals of electric circuits and uses the transfer function as a tool to analyze circuits, systems, and filters. The author avoids the Fourier transform, since this topic is often not taught in circuits courses. General transfer functions for low pass, high pass, band pass and band reject filters are demonstrated, with first order and higher order filters explained in plain language. The author’s presentation is designed to be accessible to a broad audience, with the concepts of circuit analysis explained in basic language, reinforced by numerous, solved examples.