Fundamentals of electro-optic systems design communications, lidar, and imaging by Karp, Sherman

Fundamentals of electro-optic systems design communications, lidar, and imaging by Karp, Sherman

Acousto-optic signal processing theory and implementation

Fiber optics standard dictionary by Weik, Martin H

Microwave and optical waveguide analysis by the finite element method by Fernandez, F. Anibal

Visual science and engineering models and applications

Handbook of CDMA systems design, engineering, and optimization

Wireless information network by Pahlavan, Kaveh

Table of Contents: “…Frequency administration and standards activities -- Characterization of radio propagation -- Channel measurement and modeling for narrowband signaling -- Measurement of wideband channel characteristics -- Computer simulation of wideband radio channels -- Modem technology -- Signal processing for wireless applications -- Spread spectrum for WIN systems -- Wireless optical networks -- Networks and access methods -- Standards and products -- References -- Index.…”

Nanotechnology and functional materials for engineers by Dahman, Yaser

Prentice Hall physical science concepts in action : with earth and space science by Wysession, Michael, Frank, David V., Yancopoulos, Sophia

Table of Contents: “…Science skills -- Properties of matter -- States of matter -- Atomic structure -- The periodic table -- Chemical bonds -- Chemical reactions -- Solutions, acids, and bases -- Carbon chemistry -- Nuclear chemistry -- Motion -- Forces and motion -- Forces in fluids -- Work, power, and machines -- Energy -- Thermal energy and heat -- Mechanical waves and sound -- The electromagnetic spectrum and light -- Optics -- Electricity -- Magnetism. …”

Handbook of green information and communication systems

Electronic instrument handbook

Table of Contents: “…Cutler, John A. Kusters -- Spectrum Analyzers / Alan W. Schmidt -- Lightwave Signal Sources / Waguih Ishak -- Lightwave Signal Analysis / Waguih Ishak -- Lightwave Component Analyzers / Waguih Ishak -- Optical Time Domain Reflectometers / Waguih Ishak -- Impedance Measurement Instruments / Yoh Narlmatsu -- Semiconductor Test Instrumentation / James L. …”

Introduction to modern EW systems by De Martino, Andrea

Table of Contents: “…Chapter 1 Introduction to Electronic Warfare Scenarios; 1.1 Definitions and EW Role in the Military Field; 1.2 Main Weapons Systems of Interest to EW; 1.2.1 Artillery Systems; 1.2.2 Missile Systems; 1.2.3 Active Homing Missiles; 1.2.4 Track via Missile Systems; 1.2.5 Passive IR-Guided Missiles; 1.2.6 Sea-Skimming Missiles; 1.2.7 Antiradiation Missiles; 1.3 EW in Symmetric Conflicts; 1.4 EW in Asymmetric Conflicts; References; Chapter 2 Evolution of Signal Emitters and Sensors; 2.1 Introduction. 2.2 Sensor Electromagnetic Spectrum and Atmospheric Propagation2.3 Radar Principles and Types; 2.3.1 Radar Equation; 2.3.2 Radar Structure; 2.3.3 Radar Signal Processing Fundamentals; 2.3.4 Automatic Detection; 2.3.5 Pulse Compression; 2.3.6 Surveillance Radars; 2.3.7 LPI Radars; 2.3.8 Pulse Doppler Radars; 2.3.9 Tracking Radars; 2.3.10 Synthetic Aperture Radars; 2.3.11 Bistatic Radars; 2.4 Communications; 2.4.1 Access Methods; 2.4.2 Digital Signaling; 2.4.3 Secure Communications; 2.4.4 Coding of Communication Signals; 2.4.5 Typical Military Communication Systems. 2.5 Satellite Navigation Systems2.6 Electro-Optical Thermal Imagers; 2.6.1 Minimum Resolvable Temperature; 2.6.2 IR Missile Seekers; 2.6.3 Missile Approach Warner; 2.7 Laser Radar Systems; 2.7.1 Laser Target Designation and Ranging; 2.7.2 Laser Radar Receivers; 2.7.3 Laser Radar Range Equation; 2.7.4 Target Detection; References; Chapter 3 Electronic Warfare RF Band Sensor Systems; 3.1 Introduction; 3.2 EW Radar Band Sensors; 3.2.1 RWR Architecture; 3.2.2 ESM Architecture; 3.2.3 ELINT Architecture; 3.3 EW Sensor Sensitivity; 3.3.1 Conclusions; 3.4 Probability of Interception. 3.5 EW Radar Band Sensor Architectures3.5.1 Architecture of Past Generation Intercept Receivers; 3.5.2 Architecture of New EW radar Band Sensors; 3.5.3 DSP Technologies; 3.6 Detection and Classification of LPI Radars; 3.7 Emitter Deinterleaving and Sorting; 3.8 Emitter Identification; 3.9 Communications ESM; 3.9.1 CESM; 3.9.2 COMINT; 3.10 SIGINT; 3.11 Conclusion; References; Chapter 4 RF Direction-Finding and Emitter Location Techniques; 4.1 Introduction; 4.2 Amplitude Comparison DF Methods; 4.3 Phase Comparison Monopulse DF Measurement Methods; 4.3.1 Correlative Phase DF. 4.4 Time-Difference DF4.5 Emitter Location; 4.5.1 Triangulation; 4.5.2 Trilateration; 4.5.3 Frequency Difference on Arrival Passive Location Technique; 4.5.4 Inverse Passive Location; 4.6 Conclusion; References; Chapter 5 Electronic Countermeasure Systems; 5.1 Introduction; 5.1.1 Typical RECM Requirements and Missions; 5.1.2 EW Radar Jamming Equation; 5.2 Radar ECM Architecture; 5.3 Digital Radio-Frequency Memory; 5.3.1 Phase-Sampled DRFMs; 5.4 Radar ECM Transmitters; 5.5 Chaff; 5.6 Communication ECM Systems; 5.7 Infrared ECM Systems; 5.7.1 Flares; 5.8 Conclusion…”