王桐、姜弢主编的《信息与通信工程专业英语》由3个主题单元构成，包括19章课文。第1主题单元介绍了信号分析与处理的基本知识，其中包括信号与系统、数字信号处理、随机过程等有关课程中常用的一些基本概念，并对部分词汇做了注释。第2主题单元介绍了通信工程的基本知识，其中包括通信系统、通信网络等基础内容，也包括无线自组织网络、软件无线电、智能天线系统、蓝牙技术及4G无线通信等进阶内容。第3主题单元介绍了水声工程及信息技术中的前沿内容，包括自组织网络、大数据、图像处理等。 本书可供信息与通信工程专业学生及水声工程专业学生使用，也可供从事相关专业科研和工程技术人员参考。

Part I Signal Processing
Chapter 1 Periodic Signals
1.1 Time-domain Descriptions
1.2 Frequency-domain Descriptions
1.3 Orthogonal Functions
1.4 The Fourier Series
Chapter 2 Aperiodic Signals
2.1 Introduction
2.2 The Exponential Form of the Fourier Series
2.3 The Fourier Transform
2.4 The Laplace Transform
Chapter 3 Sampled-Data Signals
3.1 Introduction
3.2 Mathematical Description Using the Dirac Function
3.3 Spectra of Sampled-Data Signals
3.4 The z-transform
3.5 Discussion
Chapter 4 Random Signals
4.1 Introduction
4.2 Elements of Probability Theory
4.3 Amplitude Distributions and Moments
4.4 The Autocorrelation and Power Spectral Density Functions
4.5 Important Types of Random Signal
Chapter 5 Signals and Systems
5.1 Introduction
5.2 Basic Aspects of Linear Processing
5.3 Convolution, Correlation and Filtering
5.4 The Processing of Random Signals
5.5 Nonlinear Processing
Chapter 6 Modulation and Sampling
6.1 Introduction to Modulation
6.2 Signal Sampling and Rcconstitution
6.3 Other Modulation Processes
Chapter 7 Filters
7.1 Introduction
7.2 General Aspects of Filter Performance
7.3 Analogue Filters
7.4 Digital Filters
Part II Telecommunications Technology
Chapter 8 Communication Technology
8.1 Basic Knowledge of Communication
8.2 Introduction to Optical Fiber Communication
8.3 Satellite Communication
8.4 Data Communication and Mobile Communication
Chapter 9 Communication Networks
9.1 Principle for Communication Network
9.2 ISDN
9.3 ATM Networks
9.4 Information Network System
Chapter 10 Fourth Generation Wireless Communication
10.1 Introduction
10.2 System Standards
10.3 Forerunner Versions
10.4 Principal Technologies in all Candidate Systems
10.5 Conclusion
Chapter 11 The Software Radio Architecture
11.1 Introduction
11.2 Software Radio Overview
11.3 Partitioning of the Channel Processing Stream
11.4 Estimating Resource Requirements
11.5 Heterogeneous Muhiprocessing Hardware
11.6 Open Architecture Software Tools Remain Problematic
11.7 Conclusions
Chapter 12 Smart Antenna Systems
12.1 Introduction
12.2 A Useful Analogy for Adaptive Smart Antennas
12.3 Antennas and Antenna Systems
12.4 What Is a Smart Antenna System?
12.5 The Goals of a Smart Antenna System
12.6 Signal Propagation: Muhipath and Cochannel Interference
12.7 The Architecture of Smart Antenna Systems
12.8 Who Can Use Smart Antenna Technology?
Chapter 13 Bluetooth: Technology for Short-Range Wireless Approches
13.1 Introduction
13.2 Bluetooth Specifications
13.3 Radio Front End
13.4 Piconets and Scatternets
13.5 Piconet Channel
13.6 Putting the Pieces Together
13.7 Conclusion
Part III Information Technology
Chapter 14 Underwater Acoustic Signal Processing
14. I Quantitative Description of Signal
14.2 Qualitative Description of the Sources of Noise
14.3 Comparison of Sonar,Radar,and Seismic Parameters
14.4 Target Strength and the Sonar Range Equation
14.5 Reflection and Scattering from Boundaries
14.6 Effects of an Inhomogeneous Medium
14.7 Criteria for Measuring the Success of Detection
14.8 Directional A1Tays
Chapter 15 Underwater Acoustic Imaging
15.1 Introduction
15.2 Properties of Underwater Acoustic Imaging Systems
15.3 Targets and Environmental Requirements
15.4 Underwater Acoustic Imaging System Concepts
15.5 Examples of Various Acoustic Imaging Techniques and Systems
15.6 Summary
Chapter 16 Computer Technology
16.1 History of Computing
16.2 Organization of a Stored Program Digital Computer
Chapter 17 Big Data Processing
17.1 Introduction
17.2 The Hadoop Distributed Filesystem
17.3 Map Reduc