Sensors, Materials, and Nanoscience Sensors . Introduction; Rosemary L. Smith . Electrochemical Sensors; Bryan Stewart Hobbs . The Stannic Oxide Semiconductor Gas Sens∨ J. Watson An Introduction to Multi-Sensor Data Fusion ; David L. Hall and James Llinas Magnetooptics ; David Young and Yuan Pu Materials and Nanoscience . Carbon Nanotubes; M.

Meyyappan . Modeling MEMS and NEMS; John Pelesko . Micromechatronics; Victor Giurgiutiu and Sergey Edward Lyshevski . Nanocomputers, Nanoarchitectronics, and NanoICs; Sergey Edward Lyshevski . Semiconductor Nano-electronics and Nano-Optoelectronics; Nelson Tansu, Ronald Arif, and Zhian Jin Instruments and Measurements . Explosion-Proof Instruments; Sam S. Khalilieh, P.E.

Portable Instruments and Systems; Halit Eren . G (LabVIEW(tm)) Software Engineering; Christopher G. Relf Reliability Engineering ; B.S. Dhillon Biomedical Systems Introduction ; Joseph D. Bronzino Bioelectricity . Neuroelectric Principles; John A. White and Alan D.

Dorval II . Bioelectric Events; L.A. Geddes (revised by R.C. Barr) . Biological Effects and Electromagnetic Fields; Bonnie Keillor Slaten and Dr. Frank Barnes .

Embedded Signal Processing; David R. Martinez, Robert A. Bond, and M. Michael Vai Biomedical Sensors ; Michael R. Neuman Bioelectronics and Instruments . The Electroencephalogram; Joseph D. Bronzino . The Electrocardiograph; Edward J.

Berbari Tomography ; M.D. Fox Mathematics, Symbols, and Physical Constants Introduction ; Ronald J. Tallarida . Greek Alphabet . International System of Units (SI) . Conversion Constants and Multipliers . Physical Constants .

Symbols and Terminology for Physical and Chemical Quantities . Credits . Probability for Electrical and Computer Engineers; Charlie Therrien Index.