Measurement, instrumentation, and sensors handbook : electromagnetic, optical, radiation, chemical, and biomedical measurement / [edited by] John G. Webster, Halit Eren ; Mushtaq Ali [and one hundred eighty four others], contributors.

Includes bibliographical references at the end of each chapters and index.

<P>Preface</P><P>Acknowledgements</P><P>Editors</P><P>Contributors</P><P><B>Part I: Sensors and Sensor Technology</P></B><P>Soft Sensors: Software-Based Sensors</P><I><P>Petr Kadlec</P></I><P>Implantable Systems</P><I><P>Vincenzo Luciano, Emilio Sardini, Alessandro Dionisi, Mauro Serpelloni, and Andrea Cadei</P></I><P>Bio-Inspired and Life-Inspired Sensors</P><I><P>Cesar Ortega-Sanchez and Halit Eren</P></I><P>Image Sensors</P><I><P>Mehdi Habibi</P></I><P>Principles and Technology of SQUIDs</P><I><P>Robert L. Fagaly</P></I><P>Next Generation of Smart Sensors</P><I><P>Michael E. Stanley and Stéphane Gervais-Ducouret</P></I><P>Needle-Type Environmental Sensors</P><I><P>Woo Hyoung Lee, Jin-Hwan Lee, Woo-Hyuck Choi, Ian Papautsky, and Paul L. Bishop</P></I><P>Single-Chip Chemical and Biological Sensors</P><I><P>Alireza Hassanzadeh and Robert G. Lindquist</P></I><P>CMOS Integrated Gas Sensors</P><I><P>Prasanta K. Guha, Sumita Santra, and Julian W. Gardner</P></I><P>Energy Harvesting for Sensors: DC Harvesters</P><I><P>Oscar Lopez-Lapeña, Maria Teresa Penella, and Manel Gasulla</P></I><P>Energy Harvesting for Sensors: AC Harvesters</P><I><P>Maria Teresa Penella, Oscar Lopez-Lapeña, and Manel Gasulla</P></I><P>Hydrogen Gas Sensors: Flow</P><I><P>H. El Matbouly, F. Domingue, V. Palmisano, and L. Boon-Brett</P></I><P>Thermal Sensors: Flow</P><I><P>Nam-Trung Nguyen</P></I><P>SQUID Magnetometers</P><I><P>Robert L. Fagaly</P></I><P>Sensor Networks and Communication</P><I><P>Robert M. Crovella</P></I><B><P>Part II: Electrical Variables</P></B><P>Electric Current Sensors</P><I><P>Pavel Ripka</P></I><P>Nonlinear System Modeling with Invariance to Fourier Transform for Fault Diagnosis: Application to Power Transformers</P><I><P>Gerasimos Rigatos and Pierluigi Siano</P></I><P>Meter Voltage Measurement</P><I><P>Alessandro Ferrero</P></I><P>Oscilloscope Voltage Measurement</P><I><P>Jerry Murphy</P></I><P>Inductive and Capacitive Voltage Measurement</P><I><P>Cipriano Bartoletti, Luca Podestà, and Giancarlo Sacerdoti</P></I><P>Current Measurement</P><I><P>Douglas P. McNutt</P></I><P>Power Measurement</P><I><P>Pasquale Arpaia, Francesco Avallone, Aldo Baccigalupi, and Carmine Landi</P></I><P>Power Factor Measurement</P><I><P>Michael Z. Lowenstein</P></I><P>Phase Measurement</P><I><P>Peter O'Shea</P></I><P>Energy Measurement</P><I><P>Arnaldo Brandolini and Alessandro Gandelli</P></I><P>Electrical Conductivity and Resistivity</P><I><P>Michael B. Heaney</P></I><P>Charge Measurement</P><I><P>Saps Buchman, John T. Mester, and T.J. Sumner</P></I><P>Capacitance and Capacitance Measurements</P><I><P>Halit Eren</P></I><P>Permeability and Hysteresis Measurement</P><I><P>Jeff P. Anderson and Richard J. Blotzer</P></I><P>Inductance Measurement</P><I><P>Michal Szyper</P></I><P>Immittance Measurement</P><I><P>Achim Dreher</P></I><P>Distortion Measurement</P><I><P>Michael F. Toner and Gordon W. Roberts</P></I><P>Noise Measurement</P><I><P>W. Marshall Leach, Jr.</P></I><B><P>Part III: Electromagnetic Variables</P></B><P>Microwave Measurement</P><I><P>Alfons Dehé, K. Beilenhoff, K. Fricke, H. Klingbeil, V. Krozer, and H.L. Hartnagel</P></I><P>Q Factor Measurement</P><I><P>Albert D. Helfrick</P></I><P>EMI and EMC Test Methods</P><I><P>Jeffrey P. Mills</P></I><P>Permittivity Measurement</P><I><P>Devendra K. Misra</P></I><P>Electric-Field Strength</P><I><P>David A. Hill and Motohisa Kanda</P></I><P>Magnetic Field Measurement</P><I><P>Robert L. Fagaly and Steven A. Macintyre</P></I><P>RF/Microwave Spectrum Analysis</P><I><P>Roberto Ambrosini, Stelio Montebugnoli, Claudio Bortolotti, and Mauro Roma</P></I><B><P>Part IV: Time and Frequency</P></B><P>Time Measurement</P><I><P>Michael A. Lombardi</P></I><P>Frequency Measurement</P><I><P>Michael A. Lombardi</P></I><B><P>Part V: Optical</P></B><P>Photoconductive Sensors</P><I><P>Fritz Schuermeyer and Thad Pickenpaugh</P></I><P>Photojunction Sensors</P><I><P>Michael R. Squillante, Kanai S. Shah, and James F. Christian</P></I><P>Vision and Image Sensors</P><I><P>Stanley S. Ipson and Chima Okereke</P></I><P>Charge-Coupled Devices</P><I><P>John A. Nousek, M.W. Bautz, B.E. Burke, J.A. Gregory, R.E. Griffiths, R.L. Kraft, H.L. Kwok, and D.H. Lumb</P></I><P>Densitometry Measurement</P><I><P>Joseph H. Altman</P></I><P>Colorimetry</P><I><P>Robert T. Marcus</P></I><P>Polarization Measurement</P><I><P>Soe-Mie F. Nee</P></I><P>Refractive Index Measurement</P><I><P>Gerry H. Meeten</P></I><P>Turbidity Measurement</P><I><P>Daniel Harrison and Michael Fisch</P></I><P>Laser Output Measurement</P><I><P>Haiyin Sun</P></I><P>Optical Loss: Principles and Applications</P><I><P>M.M. Rad, Halit Eren, and Martin Maier</P></I><B><P>Part VI: Chemical Variables</P></B><P>Interference and Selectivity in Portable Chemical Sensors</P><I><P>Denise Wilson</P></I><P>Electrochemical Composition Measurement</P><I><P>Michael J. Schöning, Arshak Poghossian, Olaf Glück, and Marion Thust</P></I><P>Thermal Composition Measurement</P><I><P>Mushtaq Ali, Behrooz Pahlavanpour, and Maria Eklund</P></I><P>Kinetic Composition Measurement</P><I><P>E.E. Uzgiris and J.Y. Gui</P></I><P>Chromatography Composition Measurement</P><I><P>Behrooz Pahlavanpour, Mushtaq Ali, and C.K. Laird</P></I><P>pH Measurement</P><I><P>Norman F. Sheppard, Jr. and Anthony Guiseppi-Elie</P></I><B><P>Part VII: Medical, Biomedical, and Health</P></B><P>Wireless Sensor Networks in Health</P><I><P>Enrique Dorronzoro, Isabel Gómez, Ana Verónica Medina, Luis Fernández-Luque, and Jose Antonio Gómez</P></I><P>Sensors for Electrical Impedance Tomography</P><I><P>Tushar Kanti Bera and J. Nagaraju</P></I><P>Patient-Care Sensing and Monitoring Systems</P><I><P>Akihiro Kajiwara and Ryohei Nakamura</P></I><P>Sensor-Based Activity Recognition Techniques</P><I><P>Donghai Guan, Weiwei Yuan, and Sungyoung Lee</P></I><P>Biopotentials and Electrophysiology Measurement</P><I><P>Nitish V. Thakor</P></I><P>Blood Pressure Measurement</P><I><P>Shyam Rithalia, Mark Sun, and Roger Jones</P></I><P>Blood Flow Measurements</P><I><P>Per Ask and P. Åke Öberg</P></I><P>Medical Imaging</P><I><P>James T. Dobbins III, Sean M. Hames, Bruce H. Hasegawa, Timothy R. DeGrado, James A. Zagzebski, and Richard Frayne</P></I><P>Blood Chemistry Measurement</P><I><P>Terry L. Rusch and Ravi Sankar</P></I><P>Human Occupancy Detectors</P><I><P>Jacob Fraden</P></I><B><P>Part VIII: Environmental</P></B><P>GPR Principles and Applications</P><I><P>Jan Francke</P></I><P>Airborne Radiometers to Measure Electromagnetic Radiation in the Earth's Atmosphere: Mature and Emerging Technologies</P><I><P>Manfred Wendisch</P><P>In Situ</I> Sensors for Monitoring the Marine Environment</P><I><P>Graham A. Mills, Gary R. Fones, and Silke Kröger</P></I><P>Mobile Environmental Sensing Using Smartphones</P><I><P>Siamak Aram, A. Toriono, F. Rugiano, and E. Pasero</P></I><P>Space Dosimetry</P><I><P>Jarvis A. Caffrey and David M. Hamby</P></I><P>Capacitance Sensors for Nondestructive Moisture Determination in Agricultural Products and Biofuel Materials</P><I><P>Char

The Second Edition of the bestselling Measurement, Instrumentation, and Sensors Handbook brings together all aspects of the design and implementation of measurement, instrumentation, and sensors. Reflecting the current state of the art, it describes the use of instruments and techniques for performing practical measurements in engineering, physics, chemistry, and the life sciences and discusses processing systems, automatic data acquisition, reduction and analysis, operation characteristics, accuracy, errors, calibrations, and the incorporation of standards for control purposes.

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