Networked Control Systems (NCSs) are spatially distributed systems for which the communication between sensors, actuators and controllers is realized by a shared (wired or wireless) communication network. NCSs offer several advantages, such as reduced installation and maintenance costs, as well as greater flexibility, over conventional control systems in which parts of control loops exchange information via dedicated point-to-point connections. The principal goal of this book is to present a coherent and versatile framework applicable to various settings investigated by the authors over the last several years. This framework is applicable to nonlinear time-varying dynamic plants and controllers with delayed dynamics; a large class of static, dynamic, probabilistic and priority-oriented scheduling protocols; delayed, noisy, lossy and intermittent information exchange; decentralized control problems of heterogeneous agents with time-varying directed (not necessarily balanced) communication topologies; state- and output-feedback; off-line and on-line intermittent feedback; optimal intermittent feedback through Approximate Dynamic Programming (ADP) and Reinforcement Learning (RL); and control systems with exogenous disturbances and modeling uncertainties.

Long used in undergraduate and introductory graduate courses, Astrophysical Techniques, Seventh Edition provides an accessible yet comprehensive account of the innovate instruments, detectors, and techniques employed in astronomy and astrophysics. Emphasizing the underlying unity of all astronomical observations, this popular textbook provides a coherent state-of-the-art account of the instruments and techniques used in current astronomy and astrophysics. Fully updated throughout, this seventh edition builds upon the sixth edition, covering improved techniques and cutting-edge methods in the field, as well as other exciting new developments in gravitational waves, dark matter and energy, the use of photonics, and astronomy education and outreach, in addition to further detailed discussions on the latest scientific instruments and individual detectors. The book is written in a very accessible manner, and most of the mathematics is accessible to those who have attended a mathematics course in their final years at school. Nevertheless, the treatment of the topics in general is at a sufficiently high level to be of use to those professionals seeking technical information in areas of astronomy with which they might not be completely familiar. Key Features: Details the instrumentation and theory of astronomical observations, including radio waves, gamma rays, cosmic rays, neutrinos, gravitational waves and dark matter and energy and more Presents the background theory and operating practice of state-of-the-art detectors and instruments Fully updated to contain the latest technology and research developments

Achieve the Best Camera Design: Up-to-Date Information on MCMs Miniature camera modules (MCMs), such as webcams, have rapidly become ubiquitous in our day-to-day devices, from mobile phones to interactive TV systems. MCMs-or "smart" cameras-can zoom, adjust their frame rate automatically with illumination change, focus at different distances, compensate for hand shake, and transform captured images. With contributions from academics and field engineers, Smart Mini-Cameras discusses the structure, operation principles, applications, and future trends of miniature mobile cameras. It compares this technology with traditional digital still cameras and explains the specific requirements of MCM components (imposed by the size or type of application) in terms of optical design, image sensor, and functionalities. The book describes the implementation of several active functionalities, including liquid crystal auto focus (AF) and optical image stabilization (OIS). It also explores how new technologies, such as the curved detector and transforming optics, are stimulating novel trends, including a miniature panoramic lens on mobile phones. By providing you with an understanding of the components and performance tradeoffs of MCMs, this book will help you achieve the best camera design. It also answers frequently asked questions, such as the importance of the number of megapixels in a mobile phone camera and the value of AF and OIS features.

Methods and types of devices used for measuring humidity use different measurement principles, materials and varying configurations, making it difficult to compare capabilities. Data presented provides detailed information on types of humidity sensors accompanied by an analysis of their strengths and weaknesses, allowing for comparison and selection of the best method for specific applications. The first volume focuses on devices based on optical principles of measurement, the second volume focuses on electronic and electrical devices. Numerous strategies for the fabrication and characterization of humidity-sensitive materials and sensing structures are described throughout. The second volume is entirely devoted to the consideration of different types of solid-state devices developed for humidity measurement. The third volume offers an analysis on various humidity sensitive materials and sensor technologies used in the fabrication of humidity sensors and methods acceptable for their testing.

* Focuses only on elastic lidars and directly related topics.
* Evaluates all of the major inversion and analysis methods.
* Covers an emerging field that is generating a lot of interest.

The rapidly emerging fields of nanotechnology and nano-fabrication have enabled the creation of new sensors with dramatic improvements in sensitivity and range, along with substantial miniaturization. And, although there are many books on nanotechnology, recent advances in micro and nano-scale sensors and transducers are not adequately represented in most books. This book fills that gap. Micro- and Nano-Scale Sensors and Transducers provides a summary of the state of the art in sensor and transducer technology. Teaching you how to make more informed selections of sensors or transducers for particular applications, it describes the differences between new sensor and transducer technologies based on nanotechnology and nano-fabrication and the older or "classical" sensor technologies. The book presents the new structures of pressure sensors being used in such applications as mechanical pressure sensing, gas pressure sensing, and atmospheric pressure sensing. It illustrates the novel structures and characteristics of new motion and acceleration sensors. Describing highly sensitive miniature gas and smoke sensors based on nano-structured electrodes, the book presents novel techniques for detecting atmospheric moisture and moisture inside small electronic components. It also covers applications of optoelectronic and photonic sensors. The book examines multi-purpose biological and chemical analysis devices where each device is fully contained in one integrated circuit (Lab on a Chip) as well as other advanced chemical and biological sensors. It describes electric, magnetic, and RF / microwave sensors and their applications and also considers integrated sensor / actuator units and special-purpose sensors. Each chapter in the book includes a set of quizzes / short questions, along with answers.

Overview International System of Units (SI) (Print On-Demand Edition) is a one-of-a-kind book. It provides detailed information on the metric system, its origin, history, and how the base and derived units were established. The book has four chapters (Measurement Systems, the International System of Units, Metrication in the United States, and United States Metric Association), appendices, an afterword, and references. The book is principally aimed at educating students in the United States, but it will also be of interest to anyone who enjoys the popular sciences. This is a Print-On-Demand title. It has a CD-ROM companion (ISBN 978-0-8311-3466-2) for which publication has ceased. Dr. Edmund Isakov. Ph.D., has enjoyed a long and distinguished career in metalworking. He earned his Doctor of Philosophy degree in Mechanical Engineering at the V. Bakul Institute for Superhard Materials (Kiev, Ukraine). He is known for his work in research, development and applications of cuttting tools for milling, turning and boring. Dr. Isakov has authored Mechanical Properties of Work Materials and numerous articles and papers on metalcutting. He holds several U.S. patents and numerous U.S.S.R Inventor's Certificates pertaining to carbide and diamond tools. during nearly two decades at Kennametal, Inc., he became a noted authority on the technical analysis of cutting tools. Dr. Isakov is now an independent consulant and manufacturing sciences writer based in Florida. He is a senior member of SME.Introduction Chapter 1: Measurement Systems Brief history of the English System Brief history of the Metric System Chapter 2: International System of Units (SI) SI Base Units of Measurement SI Derived Units of Measurement Chapter 3: Metrication in the United States Brief history Current usage of the metric units Chapter 4: United States Metric Association (USMA) USMA establishment Brief history Summary of metric usage in the United States Appendix 1: Signatories to the Meter Convention (Treaty of the Meter) Appendix 2: Associate States of the CGPM Appendix 3: CGPM Meetings Appendix 4: Prefixes for Multiples and Submultiples of the SI units Appendix 5: Medals awarded to scientists, after whom the units of measurement are named Appendix 6: Standard Inductor Values Appendix 7: The Sixteen Bronze Statues Appendix 8: Temperature Conversion Formulas References Index - Biographical Names

Due to the increased use of composite materials in aerospace, energy, automobile, and civil infrastructure applications, concern over composite material failures has grown, creating a need for smart composite structures that are able to self-diagnose and self-heal. Structural Health Monitoring Technologies and Next-Generation Smart Composite Structures provides valuable insight into cutting-edge advances in SHM, smart materials, and smart structures. Comprised of chapters authored by leading researchers in their respective fields, this edited book showcases exciting developments in general embedded sensor technologies, general sensor technologies, sensor response interrogation and data communication, damage matrix formulation, damage mechanics and analysis, smart materials and structures, and SHM in aerospace applications. Each chapter makes a significant contribution to the prevention of structural failures by describing methods that increase safety and reduce maintenance costs in a variety of SHM applications.

The concept of traceability has evolved to ensure measurements can be communicated consistently and unambiguously. This new edition of a classic reference offers a systematic treatment of traceable temperature measurement and presents a practical guide to the principles and purpose of measurements. With an emphasis on recognizing sources of uncertainty, Nicholas and White examine the most commonly used thermometers: liquid-in-glass thermometers, platinum resistance thermometers, thermocouples and radiation thermometers.

The new edition features:

• How to make measurements fit for purpose; the importance of traceability, uncertainty and measurement standards.
• The latest advances in industrial and laboratory thermometry, with a unique emphasis on practical advice on how to recognise and treat errors.
• An updated chapter on calibration, reflecting the changes brought about by the release of the ISO 17025 standard for laboratory accreditation.
• A systematic treatment of uncertainty in measurement consistent with ISO guidelines, including numerous thermometry examples and exercises.

The rather specialized field of solar and infrared radiation measurements has become increasingly important due to the increased demands by the renewable energy and climate change research communities for data with higher accuracy and increased temporal and spatial resolutions. Recent advances in radiometry, measurement systems, and information dissemination also have increased the need for refreshing the literature available for this topic. This book provides the reader with an up-to-date review of the important aspects of solar and infrared radiation measurements: radiometer design; equipment installation, operation, maintenance, and calibration; data quality assessment parameters; and the knowledge necessary to properly interpret and apply the measured data to a variety of topics. Each of the authors has more than 40 years of experience with this subject, primarily as the result of developing and operating multiple measurement stations, working with the industry to improve radiometry, and conducting various research projects. The book's scope and subject matter have been designed to help a wide audience gain a general understanding of this subject and to serve as a technical reference. A student new to the field will benefit from the review of terminology and the historical perspective for radiometry before addressing more detailed topics in radiometry that we hope will be of interest to the more experienced reader. Describes the strengths and weaknesses of irradiance instruments Provides detailed information on how to assess uncertainty in measurements Offers comprehensive background information needed to understand the use of solar instrumentation Discusses design concepts for shadowband radiometers, sky imagers, and satellite-based estimates of solar irradiance at the Earth's surface Includes chapter-end questions, references, and useful links

Sensors and Their Applications XII discusses novel research in the areas of sensors and transducers and provides insight into new and topical applications of this technology. It covers the underlying physics, fabrication technologies, and commercial applications of sensors. Some of the topics discussed include optical sensing, sensing materials, nondestructive monitoring, imaging sensors, system networks, and water quality monitoring.

Machine vision technology has revolutionised the process of automated inspection in manufacturing. The specialist techniques required for inspection of natural products, such as food, leather, textiles and stone is still a challenging area of research. Topological variations make image processing algorithm development, system integration and mechanical handling issues much more complex. The practical issues of making machine vision systems operate robustly in often hostile environments together with the latest technological advancements are reviewed in this volume. Features:- Case studies based on real-world problems to demonstrate the practical application of machine vision systems.- In-depth description of system components including image processing, illumination, real-time hardware, mechanical handling, sensing and on-line testing.- Systems-level integration of constituent technologies for bespoke applications across a variety of industries.- A diverse range of example applications that a system may be required to handle from live fish to ceramic tiles.Machine Vision for the Inspection of Natural Products will be a valuable resource for researchers developing innovative machine vision systems in collaboration with food technology, textile and agriculture sectors. It will also appeal to practising engineers and managers in industries where the application of machine vision can enhance product safety and process efficiency.

Offering all aspects of humidity measurement and instrumentation, this work includes rudiments and theory, common applications, advantages and limitations of frequently-used sensors and techniques, and guidelines for installation, maintenance and calibration. The disk is intended for easy conversions of humidity parameters and units.

Metal Oxide Nanostructures as Gas Sensing Devices explores the development of an integrated micro gas sensor that is based on advanced metal oxide nanostructures and is compatible with modern semiconductor fabrication technology. This sensor can then be used to create a compact, low-power, handheld device for analyzing air ambience. The book first covers current gas sensing tools and discusses the necessity for miniaturized sensors. It then focuses on the materials, devices, and techniques used for gas sensing applications, such as resistance and capacitance variations. The author addresses the issues of sensitivity, concentration, and temperature dependency as well as the response and recovery times crucial for sensors. He also presents techniques for synthesizing different metal oxides, particularly those with nanodimensional structures. The text goes on to highlight the gas sensing properties of many nanostructured metal oxides, from aluminum and cerium to iron and titanium to zinc and zirconium. The final chapters deal with existing and future devices that are based on nanostructures. Miniaturized systems that analyze air ambience need sensors capable of identifying different gaseous species. Exploring state-of-the-art gas sensing devices, this book shows how nanostructured metal oxides are ideally suited for use as gas sensing elements.

The introduction of the ISO 9000 quality standard resulted in renewed interest and pressure on industry to strengthen their quality and metrology standards. To meet this renewed interest Practical Density Measurement and Hydrometry provides invaluable, contemporary information on mass metrology. The book highlights the principles of physics involved and the technology needed to accurately measure the density of solids and liquids to high precision to meet the increasing demands on the metrology industry. Starting with national and international density standards, the book proceeds to discuss the variety of methods used to accurately measure solid and liquid density, to compare and contrast these techniques, and to thoroughly explain the thermal dilation of liquids. It also examines interferometers used in dimensional measurements of solid-based density standards, corrections applicable due to finite aperture, phase change due to reflection and ringing, and special methods for density determination. The final chapters detail specific points of relevance to density measurements and hydrometry for materials commonly used in industry. Complimented with practical guidance on applying these measurement techniques, calibration procedures, and data tables, this book is an essential reference for metrologists and a valuable introduction for graduate students.

Based on research funded by the European Commission, this important handbook provides a basis for a unified approach to three-dimensional surface finish assessment. It covers a broad range of issues related to 3-D micro-topography, with particular emphasis on standardisation, measurement, characterisation and interpretation. This reprint includes an updating introductory section. This work is to be the basis for a 3D international standard.
.Updated version of noted previous publication
.Contains basis, for the first time, for a unified approach to the subject
.The basis for a 3D international standard

Electronic Noses and Olfaction 2000 reflects the state of progress toward the development and application of electronic instruments called electronic noses (e-noses). These instruments are generally based on arrays of sensors for volatile chemicals with broadly tuned selectivity, coupled to appropriate pattern recognition systems. They are capable of detecting and discriminating a number of different simple and complex odors, such as the headspace of coffee and olive oil, as well as being able to perform simple multicomponent gas analysis.
Written by international scientists, engineers, technologists, clinicians, investigators, and instrument manufacturers working in the applied research of e-noses as well as in the applications of olfaction and taste, this volume is essential reading for anyone who wants a review of the latest developments in odor sensors, instrumentation and signal processing, and their medical, agricultural, and food-related applications.

Because of unique water properties, humidity affects many living organisms, including humans and materials. Humidity control is important in various fields, from production management to creating a comfortable living environment. The second volume of The Handbook of Humidity Measurement is entirely devoted to the consideration of different types of solid-state devices developed for humidity measurement. This volume discusses the advantages and disadvantages about the capacitive, resistive, gravimetric, hygrometric, field ionization, microwave, Schottky barrier, Kelvin probe, field-effect transistor, solid-state electrochemical, and thermal conductivity-based humidity sensors. Additional features include: Provides a comprehensive analysis of the properties of humidity-sensitive materials, used for the development of such devices. Describes numerous strategies for the fabrication and characterization of humidity sensitive materials and sensing structures used in sensor applications. Explores new approaches proposed for the development of humidity sensors. Considers conventional devices such as phsychometers, gravimetric, mechanical (hair), electrolytic, child mirror hygrometers, etc., which were used for the measurement of humidity for several centuries. Handbook of Humidity Measurement, Volume 2: Electronic and Electrical Humidity Sensors provides valuable information for practicing engineers, measurement experts, laboratory technicians, project managers in industries and national laboratories, as well as university students and professors interested in solutions to humidity measurement tasks as well as in understanding fundamentals of any gas sensor operation and development.

This fully illustrated text explains the basic measurement techniques, describes the commercially available instruments and provides an overview of the current perception of 3-D topography analysis in the academic world and industry, and the commonly used 3-D parameters and plots for the characterizing and visualizing 3-D surface topography.
It also includes new sections providing full treatment of surface characterization, filtering technology and engineered surfaces, as well as a fully updated bibliography.

Written by the leading names in this field, this book introduces the technical properties, design and fabrication details, measurement results, and applications of three-dimensional silicon radiation sensors. Such devices are currently used in the ATLAS experiment at the European Centre for Particle Physics (CERN) for particle tracking in high energy physics. These sensors are the radiation hardest devices ever fabricated and have applications in ground-breaking research in neutron detection, medical dosimetry and space technologies and more. Chapters explore the essential features of silicon particle detectors, interactions of radiation with matter, radiation damage effects, and micro-fabrication, in addition to a providing historical overview of the field. This book will be a key reference for students and researchers working with sensor technologies. Features: The first book dedicated to this unique and growing subject area, which is also widely applicable in high-energy physics, medical physics, space science and beyond Authored by Sherwood Parker, the inventor of the concept of 3D detectors; Cinzia Da Via, who has brought 3DSi technology to application; and Gian-Franco Dalla Betta, a leading figure in the design and fabrication technology of these devices Explains to non-experts the essential features of silicon particle detectors, interactions of radiation with matter, radiation damage effects, and micro-fabrication

Accuracy in the laboratory setting is key to maintaining the integrity of scientific research. Inaccurate measurements create false and non-reproducible results, rendering an experiment or series of experiments invalid and wasting both time and money. This handy guide to solid, fluid, and thermal measurement helps minimize this pitfall through careful detailing of measurement techniques. Concise yet thorough, Mechanical Variables Measurement-Solid, Fluid, and Thermal describes the use of instruments and methods for practical measurements required in engineering, physics, chemistry, and the life sciences. Organized according to measurement problem, the entries are easy to access. The articles provide equations to assist engineers and scientists who seek to discover applications and solve problems that arise in areas outside of their specialty. Sections include references to more specialized publications for advanced techniques, as well. It offers instruction for a range of measuring techniques, basic through advanced, that apply to a broad base of disciplines. As an engineer, scientist, designer, manager, researcher, or student, you encounter the problem of measurement often and realize that doing it correctly is pivotal to the success of an experiment. This is the first place to turn when deciding on, performing, and troubleshooting the measurement process. Mechanical Variables Measurement-Solid, Fluid, and Thermal leads the reader, step-by-step, through the straits of experimentation to triumph.

The book presents design methods for analog integrated circuits with improved electrical performance. It describes different equivalent transistor models, design methods, and fabrication considerations for high-density integrated circuits in nanometer CMOS processes, and it analyzes circuit architectures that are suitable for analog building blocks. Highlighting various design challenges, the text offers a complete understanding of architectural- and transistor-level design issues of analog integrated circuits. It examines important trends in the design of high-speed and power-efficient front-end analog circuits that can be used for signal conditioning, filtering, and detection applications. Offers a comprehensive resource for mastering the analysis of analog integrated circuits. Describes circuit-level details of high-speed and power-efficient analog building blocks. Explores design methods based on various MOS transistor models (MOSFET, FinFET). Provides mathematical derivations of all equations and formulas. Emphasizes practical aspects relevant to integrated circuit implementation. Includes open-ended circuit design case studies.

CONTENTS - 1. SCALES - Nature and Properties of Scales - Methods for Constructing Scales - Altering Moduli of Scales - Standard Scales - Mechanical Aspects of Scale Construction - Exercises - 2. CALCULATING WITH SCALES - Adjacent Scales - Parallel Scales With Index Line - Standard Slide Rules - Slide Rule Routines - Special Slide Rules - Methods of Reproduction - Other Forms of Special Slide Rules - Differential Gear Rules - Exercises - 3. GRAPH PAPERS - Common Types of Graph Papers - Construction of Graph Papers - Exercises - 4. CALCULATING WITH GRAPH PAPERS - Hyperbolic Paper - Linear Paper - Semilogarithmic Paper - Logarithmic Paper - Exercises - 5. GRAPHS - Relationship of Graph to Table and Function - Graphs of Regular Functions - Interpolation and Extrapolation - Graphs of Empirical Data - Complex Graphs - Condensed Graphs - Exercises - 6. CALCULATING WITH GRAPHS - Position Relationships - Vertical and Horizontal Displacements - General Distance Relationships - Isometric Translation - Slopes; Graphical Differentiation - Areas; Graphical Integration - Exercises - 7. NOMOGRAPHY - Nomographic Methods - Some Characteristics of Nomographs - 8. NOMOGRAPHS BY SYNTHETIC METHODS - Synthetic Methods - Figures With One Straight Index Line - Figures With Two Parallel Index Lines - Figures With Perpendicular Index Lines - Review of Synthetic Methods - Exercises - 9. NOMOGRAPHS WITH CARTESIAN COORDINATES, - Relationship of Defining Equation to Type - Matrix Transformations - Exercises - 10. NOMOGRAPHS WITH HYPERBOLIC COORDINATES - The Semihyperbolic Coordinate System - Application to Construction of Nomographs - 11. PRACTICAL ASPECTS OF CONSTRUCTING NOMOGRAPHS - Nomographs With Parallel Scales - Nomographs With Oblique Scales - Nomographs With Curved Scales - Exercises - 12. USE OF GENERAL HYPERBOLIC COORDINATES - Hyperbolic Plane Coordinates - The V-Type Nomograph - Fitting Nomograph to a Rectangle - 13. THREE-DIMENSIONED NOMOGRAPHS - Three-Dimensional Hyperbolic Coordinates - Defining Equation for Nomographs - Applications - 14. PROPERTIES OF HYPERBOLIC COORDINATE SYSTEMS - Hyperbolic Plane Coordinates - Semihyperbolic Coordinates - Hyperbolic Solid Coordinates - Semihyperbolic Solid Coordinates - 15. NOMOGRAPHS FROM GRAPHS AND TABLES - Relationship of Graph to Nomograph - Constructing Nomographs From Tables: Symmetrical - Constructing Nomographs From Tables: General - APPENDIX - Values of x = -p/p-r- and 1 - x INDEX -

Almost every industry that use liquids and gas in any form has a need to measure flow, temperature and pressure. This text is a practical guide on how to accurately use these measuring instruments to control processes in manufacturing industries for food, beverages, chemicals, pharmaceuticals, oil, water and waste water, power, etc. With higher prices of raw materials and more severe requirements for safety and environmental issues, there is a growing demand to measure with higher precision. The book includes a number of practical examples from various industries. It discusses how to comply with safety standards regarding measurements and explains how legal control systems apply to measurements. The aim is to help any process industry reduce the risk of high costs and damage to both people and equipment.

Ecological Assessment of Polymers Strategies for Product Stewardship and Regulatory Programs John D. Hamilton and Roger Sutcliffe The expense of providing ecological assessments of new commercial products is formidable. The cost of the failure to comply with the current regulations--measured in fines, liability damages, and loss of public trust--is potentially much, much higher. Establishing effective environmental product stewardship strategies for assessment upfront not only promotes initial and continued compliance, it can reduce costs via the more efficient development of new products. Based on the collaboration of the Rohm and Haas Company and S.C. Johnson Wax with other manufacturers, contract laboratories, universities, and government agencies, Ecological Assessment of Polymers is the first complete reference to provide environment-oriented information about polymers from a product development and regulatory compliance perspective. A number of books deal with the potential hazards of pesticides and solvents. This is the first to focus on the commercial synthetic polymers that exist in laundry detergents, paints, super-absorbent diapers, packaging materials, and many other consumer and industrial products. Using the principles of environmental toxicology and chemistry, Ecological Assessment of Polymers approaches environmental evaluation as a decision-making process. The book demonstrates how assessment can be used as a planning tool for developing products, reducing potential liability, and creating new products, processes, and disposal systems. Featured discussions:

• Overviews of methods, instrumentation, and databases used by environmental scientists to assessprocesses/products involving polymers
• Environmental regulatory assessment schemes for preventing dangerous environmental exposure during manufacture, use, transport, storage, and disposal
• Interpretations of ecotoxicity and fate tests with polymers
• New directions of research in degradable polymers
• Life-Cycle Assessment (LCA) of polymers
• Polymer regulations from the United States, Canada, Europe, and the Pacific Region