This book analyzes the wireless revolution: from applications to technology, and from economics to system engineering.

New techniques and technologies for sensors are developing fast and being applied in a wide range of fields for measurement and instrumentation, both for research and commercial purposes. This book aims to provide advanced students and practising engineers with a selective tour of highlights in the topical field of sensors for measurement. The authors provide descriptions of the operation, characteristics and applications of the sensors on which they work, together with recent advances and prospects for the future. The chapters cover both fibre optic and solid state sensing, applied across a wide range of applications. Although primarily aimed at graduate-level students and engineers, the depth of coverage of each sensor type is such that the book will be useful to undergraduates seeking to supplement their knowledge for courses on sensors, measurement and instrumentation.

This is a guide to the design and application of elliptical dielectric waveguides and fibers. Written by one of the pioneers of optical fiber technology, it shows the theoretical basis of the technology, demonstrates the practical uses for elliptical fibers, guides the reader through design criteria and trade-offs, and gives immediate access to collected data and references on the topic. "Elliptical Fiber Waveguides" begins with an historical overview, and then provides detailed coverage of specific waveguide and fiber modes, including all relevant specifications and data currently available. The book examines the use of elliptical fibers for a wide variety of recent applications, including sensors, rare-earth-doped fiber sources, and amplifiers. With its 278 equations, 161 figures, and nearly 200 references to the literature, "Elliptical Fiber Waveguides" brings together in one source the complete body of information currently available on this promising technology.

Here's a complete and up-to-date introduction to the analysis and design of infrared and electro-optical (EO) imaging systems. This comprehensive reference details the principles and components of the Linear Shift-Invariant (LSI) infrared and electro-optical systems and shows you how to combine this approach with calculus and domain transformations to achieve a successful imaging system analysis. Ultimately, the steps described in this book lead to results in quantitative characterizations of performance metrics such as modulation transfer functions, minimum resolvable temperature difference, minimum resolvable contrast, and probability of object discrimination.

The book includes an introduction to two-dimensional functions and mathematics which can be used to describe image transfer characteristics and imaging system components. You also learn diffraction concepts of coherent and incoherent imaging systems which show you the fundamental limits of their performance. By using the evaluation procedures contained in this desktop reference, engineers and program managers become capable of predicting both sensor test and field performance and quantifying the effects of component variations. "Introduction to Infrared and Electro-Optical Systems" contains over 500 equations.

"It strikes an excellent balance between underlying theory and principles, rigorous derivation of design formulae and description of practical applications, ranging from device to system and network, performances and properties." -- International Journal of Optoelectronics

"I would recommend it as a reference for those seeking to gain a basic understanding of fiber optic access networks and for technical managers who want an up-to-date overview of advances in this technology." -- Laser Focus World

This book examines the architectures, technologies, and design methods that make it possible to achieve a survivable fiber network, both practically and economically. Combining theory and actual results, it explores alternative methods and presents analytical and computational optimization approaches.

This book explains the advantages of fiber optics over conventional coaxial cables when routing microwave signals.

The most recent design and system applications of OF amplifiers are comprehensively described in this detailed book. With specific focus on the latest telecommunication engineering issues, it reviews all significant properties of optical fiber amplifiers and presents highly accurate models for erbium-, neodymium-, and praseodymium- doped fiver amplifiers.

Describes virtually all aspects of ion-exchanged glass waveguides, from fabrication to techniques for characterization and analysis.

The fourth volume in a series, this work details coverage of recent developments in the field of optical fibre sensors. It describes the impact which fibre sensors are having in such areas as chemical and environmental monitoring, structural instrumentation and "smart" structure, process control and engineering, and specialist industrial measurements.

This book demonstrates how to model the entire target acquisition process using either visible or infrared imaging systems. Beginning with an overview on electro-optical system design, the text introduces the complexity of various design considerations. A discussion of the differing types of visible and infrared sensors outlines basic wavelength issues and provides definitions of baseline hardware solutions.

This reference presents a system analysis of the fibre-optic gyro. Drawing on 15 years of research and developments, it describes the concepts that have emerged as the preferred solutions for obtaining a practical device, and provides access to the information needed to know about optics, single-mode fibre optics and integrated optics to understand the fibre gyro.

This book is the companion book of reference to the first volume. The book delivers an up-to-date review of key areas in modern optics with tutorial chapters that provide information on such topics as: coherent optical fiber systems, free space optical communications, atmospheric against guided wave optical communications and techniques for signal fading and loss.

Following on from "Optical Fiber Sensors", Volumes 1 and 2, this third volume discusses the significance and applications of recent fibre optic development, including: Fiber Bragg grating and its impact on the basis of sensing technology; optical fibre amplifiers and their emergence as an important optical source when configured as a laser and as a broadband photoluminescent device; and the developments of distributed sensing.