Sensors, Circuits, and Systems for Scientific Instruments: A Unified Approach presents a unified treatment of modern measurement systems by integrating relevant knowledge in sensors, circuits, signal processing, and machine learning. It also presents detailed case studies of several real-life measurement systems to illustrate how theoretical analysis and high-level designs are translated into working scientific instruments.
The book is meant for upper-level undergraduate and beginning graduate students in electrical and computer engineering, applied physics, and biomedical engineering. It is designed to fill a gap in the market between books focused on specific components of measurement systems (semiconductor devices, analog circuits, digital signal processing, etc.) and books that provide a high-level "survey" or "handbook"-type overview of a wide range of sensors and measurement systems.
Section 1: Fundamentals
Ch. 1 Review of Linear Systems
Ch. 2 General Properties of Measurement Systems
Section 2: Devices
Ch. 3 Review of Semiconductor Device Physics
Ch. 4 Models of Electronic Devices
Ch. 5 Sensors and Actuators
Ch. 6 Models of Sensors and Actuators
Ch. 7 Noise in Devices
Section 3: Circuits
Ch. 8 Noise in Circuits
Ch. 9 Low-Noise Front-End Design
Ch. 10 Precision Circuit Techniques
Ch. 11 High-Power Front-End Design
Ch. 12 Oscillators and Frequency References
Ch. 13 Digitization
Section 4: Signals and Data Processing
Ch. 14 Review of Digital Signal Processing
Ch. 15 Embedded Processing
Ch. 16 Optimal Filtering and Signal Detection
Ch. 17 Pattern Recognition and Machine Learning
Section 5: System Design and Integration
Ch. 18 System-Level Design and Simulation
Ch. 19 System Integration and Deployment
Section 6: Applications
Ch. 20 Measurements in Extreme Environments
Ch. 21 Medical Imaging: MRI
Ch. 22 Medical Imaging: Ultrasound
Ch. 23 Radio Astronomy
Ch. 24 High-Energy Physics
Ch. 25 Detection of Gravitational Waves
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