Digital Signal Processing Books

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We have compiled the list of Best Reference Books on Digital Signal Processing subject. These books are used by students of top universities, institutes and colleges. Here is the full list of best books on Digital Signal Processing along with reviews.

Kindly note that we have put a lot of effort into researching the best books on Digital Signal Processing subject and came out with a recommended list of best books. The table below contains the Name of these best books, their authors, publishers and an unbiased review of books on “Digital Signal Processing” as well as links to the Amazon website to directly purchase these books. As an Amazon Associate, we earn from qualifying purchases, but this does not impact our reviews, comparisons, and listing of these top books; the table serves as a ready reckoner list of these best books.

List of Digital Signal Processing Books with author’s names, publishers, and an unbiased review as well as links to the Amazon website to directly purchase these books.

1. Digital Signal Processing

1. “Digital Signal Processing” by Proakis and Manolokis

Book Review: This book is a very good introductory course book for digital signal processing. It demonstrates the basics of discrete time signals, systems, modern digital processing and applications for students studying in electrical engineering, computer engineering and computer science engineering. This book is very useful for semester courses at the undergraduate level in the field of digital signal processing.

2. “Digital Signal Processing” by S K Mitra

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Book Review: This book is a very good coursebook for first year graduate students in the field of digital signal processing. A course in continuous and discrete time linear systems is a prerequisite for this book. The book has various examples on MATLAB that demonstrate the capacity to solve signal processing problems. The book also introduces the tools that are used in the analysis and design of discrete time systems for digital signal processing.

3. “Theory and Application of Digital Signal Processing” by Rabinar L R and Gold B

“Theory and Application of Digital Signal Processing” Book Review: This book provides a fundamental overview on theory and application of digital signal processing. It talks about a range of elementary and advanced topics in digital signal processing in this book. It explains everything from filter design and spectrum analysis to digital hardware implementation and speech and radar processing. It has chapters devoted to the theory of discrete time linear systems, finite word length effects in digital filters, theory and approximation of finite duration impulse response digital filters, spectrum analysis and the Fast Fourier Transform. It provides global introduction to the theory of Two-Dimensional Signal Processing, Special Purpose Hardware for the FFT, Digital Hardware, General Purpose Hardware for Signal Processing Facilities, Applications of Digital Signal Processing to Speech. The book is ideal for practicing engineers as well students studying advanced courses in electrical engineering.
4. “Introduction to Digital Signal Processing” by Johnson

“Introduction to Digital Signal Processing” Book Review: This book provides a fundamental overview on digital signal processing. It is assumed that students have only a background in calculus and an exposure to continuous-time linear systems theory. It covers topics like discrete-time signals and systems, analysis of discrete-time systems, the z-transform, realization of digital systems, design of infinite impulse-response digital filters, finite impulse-response filter design, discrete fourier transforms and fast fourier transform algorithms. It is an introductory book on digital filtering and digital signal processing is pedagogically sound and self-contained.

5. “Digital Signal Processing” by Alan V Oppennheim

“Digital Signal Processing” Book Review: This book provides a comprehensive overview on digital signal processing. It gives an up-to-date and detailed introduction to the fundamentals of processing signals by digital techniques and their applications to practical problems. It discusses the processing of signals using digital techniques. It also includes many useful applications giving students practical use in the industry. The book covers analysis and representation of discrete-time signal systems, including discrete-time convolution, difference equations, the z-transform, and the discrete-time fourier transform. It lays emphasis on the similarities and distinctions between discrete time.

6. “Understanding Digital Signal Processing” by Lyons

“Understanding Digital Signal Processing” Book Review: This book provides a fundamental overview on digital signal processing. It has an updated and expanded approach to reflect the newest technologies. It has an added hands-on problem throughout. Each chapter is carefully designed to deepen understanding and help students apply what they have learned. It is comprehensive in scope and gentle in approach. This book is the perfect balance between practice and theory, keeps mathematics to minimum, and makes the subject accessible to beginners without ever oversimplifying it. This book is designed to focus on engineers and other technical professionals who use digital signal processing in day-to-day activities.

7. “Digital Signal Processing” by A Nagoor Kani

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“Digital Signal Processing” Book Review: This book provides a comprehensive overview on digital signal processing. It has been written keeping in mind the requirement of the students. The subject dealt with is highly mathematical in nature. It lays stress on the methodology of solving various problems. It provides mathematical derivations in a step-by-step manner for students to apprehend and remember. It helps to improve the understanding of the subject. It has exercise problems ranging across a wide variety of difficulty levels. It contains numerous exercise problems involving varied levels of difficulty to help students in sharpening their intuitive skill.

8. “Digital Signal Processing” by A Anand Kumar

“Digital Signal Processing” Book Review: This book provides a comprehensive overview on digital signal processing. It is well-written with a student-centered and pedagogically driven approach. It provides a self-contained introduction to the theory of digital signal processing. It covers topics ranging from basic discrete-time signals and systems, discrete convolution and correlation, z-transform, and its applications, and much more. It talks about realization of discrete-time systems, discrete-time fourier transform, discrete fourier series, discrete fourier transform to fast fourier transform. It discusses various design techniques for design of IIR and FIR filters. The numerous solved and unsolved problems in the book. It is designed to illustrate the topics clearly. MATLAB programs and the results for examples are also included at the end of chapters for students.

9. “Digital Signal Processing” by Salivahanan

“Digital Signal Processing” Book Review: This book provides a fundamental overview on digital signal processing. It helps students develop an understanding of digital signal processing concepts. It covers topics in a simple and easy to understand manner. The key topics of digital filter design and fourier transforms are clearly defined and explained for easy learning. It covers important topics like z-transforms, multi rate digital signal processing and DSP applications are given due weight age. The topic of digital signal processors provides a better coverage. It contains numerous solved examples and practice questions for students to self-assess their progress.

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10. “Digital Signal Processing” by Ronald W Schafer

“Digital Signal Processing” Book Review: This book provides a comprehensive overview on digital signal processing. It gives an up-to-date and detailed introduction to the fundamentals of processing signals by digital techniques and their applications to practical problems. It talks about development of a high-speed digital processor for speech synthesis, design of two-dimensional recursive digital filters, and much. It talks about reconstruction of multi-dimensional signals from their projections, signal analysis by cepstral prediction, speed transformations of speech, and others. It discusses the hardware implementation of a non-recursive digital filter. This book is designed to focus on students, teachers, and professionals in the numerous fields of technology.

11. “Schaum’s Outline of Theory and Problems of Digital Signal Processing” by Monson H Hayes

“Schaum’s Outline of Theory and Problems of Digital Signal Processing” Book Review: This book provides a concise overview of the crucial areas of Digital Signal Processing, such as discrete-time signals and systems, implementation of discrete-time systems, transform domain analysis of signals and systems, sampling, and digital filter design. Their applications in telecommunications, medical technology, and radar and sonar processing are also discussed. It gives the reader hundreds of fully solved problems that make every step of learning easier. It provides a powerful study tool to give a clear explanation of the mathematics behind signal and linear system analysis. It provides numerous fully solved problems, complete coverage of communications theory, introduction to information coding and theory. It has hundreds of practice problems with answers. Replete with practical examples, illustrations, and unsolved exercises, this book is ideal for engineers and students to ace any test or competitive exam. This book is designed to focus on students, teachers, and professionals in the numerous fields of technology.

12. “Multiplicative Complexity, Convolution, and the DFT (Signal Processing and Digital Filtering)” by C S Burrus and Michael T Heideman

“Multiplicative Complexity, Convolution, and the DFT (Signal Processing and Digital Filtering)” by C S Burrus and Michael T Heideman Book Review: This book is proposed to be a thorough reference to multiplicative complexity hypothesis as applied to advanced sign preparing calculations. Albeit a couple of calculations are incorporated to outline the hypothesis, I focused more on the development of the actual hypothesis. Howie Johnson’s irresistible energy for planning effective DfT calculations got me intrigued by this subject. I’m appreciative to Prof. Sid Burrus for empowering and supporting me in this exertion. I might likewise want to express gratitude toward Henrik Sorensen and Doug Jones for some animating conversations. lowered an incredible obligation to Shmuel Winograd, who, without any help, given the vast majority of the key hypothetical outcomes that prompted this current work. His monograph, Arithmetic Complexity of/Computations, acquainted me with the system behind the confirmations of hypotheses in multiplicative intricacy. empowering me to get back to his previous papers and appreciate the tastefulness of his techniques for determining the hypothesis. The subsequent key work that impacted me was the paper by Louis Auslander and Winograd on multiplicative intricacy of semilinear frameworks characterized by polynomials. In the wake of perusing this paper, it was obvious to me that this hypothesis could be applied to numerous important computational issues. These impacts can be effectively recognized in the current work.

13. “Practical Digital Signal Processing (Indian Society for Non-Destructive Testing – National Certification Board Series)” by P Kalyanasundaram and B Raj

“Practical Digital Signal Processing (Indian Society for Non-Destructive Testing – National Certification Board Series)” by P Kalyanasundaram and B Raj Book Review: This covers the standards, methodology, procedures and utilizations of one of the forthcoming guides to non-damaging testing Digital Signal Processing (DSP). DSP is perhaps the most remarkable advances that has formed science and designing in the twenty-first century causing progressive changes in a wide assortment of fields going from electrical designing, correspondences, clinical imaging, radar and sonar, high loyalty music generation and non-ruinous testing. DSP is customarily a profoundly numerical subject. Nonetheless, this book has been imagined and written so that commonsense DSP strategies can be learned and utilized without the conventional obstructions of nitty gritty math and hypothesis. This book is expected to be a guide for the novice in the field with designing or science foundation. NDE chiefs and experts aiming to have an outline of the central viewpoints would likewise profit by the substance of the book.

14. “Analog and Digital Signal Analysis: From Basics to Applications (Modern Acoustics and Signal Processing)” by Frédéric Cohen Tenoudji

“Analog and Digital Signal Analysis: From Basics to Applications (Modern Acoustics and Signal Processing)” Book Review: This book provides graduate-level treatment of analog and digital signal analysis. It contains the basics of signal theory through a range of application tools for use in acoustic analysis, geophysics, and data compression. In the book each concept is introduced and explained step by step. It includes mathematical formulae. The first part of the book explores how analog systems and signals form the basics of signal analysis. This section covers Fourier series and integral transforms of analog signals. It also includes Laplace and Hilbert transforms, the main analog filter classes, and signal modulations. Part II covers digital signals, demonstrating their key advantages. The third part of the book is about random signals, including spectral estimation, parametric modeling. Two appendices cover the basics of integration in the complex plane and linear algebra. This text provides both a solid theoretical understanding and tools for real-world applications.


2. Digital Signal Processing and its Applications

1. “Discrete-Time Signal Processing” by A V Oppenheim and R W Schafer

Book Review: This textbook on discrete time signal processing is best suited for senior and graduate level courses in the respective field. The book presents a basic understanding of the concepts of signals and systems. The book also very nicely demonstrates the basic theorems and properties of filtering, sampling, discrete time fourier analysis and discrete time linear systems. The book also focuses on generic and universal features and properties in the field of digital time signal processing

2. “Digital Signal Processing” by A V Oppenheim and R W Schafer

“Digital Signal Processing” Book Review: This book offers a comprehensive introduction to the fundamentals of processing signals using digital techniques along with an extended discussion on their applications to practical problems. Essential topics like filter design and spectrum analysis are discussed in detail. A thorough analysis of advanced concepts such as digital hardware implementations and speech & radar processing are also provided. Both students and professionals can refer to this book.

3. “Introduction to Digital Signal Processing” by Johnny R Johnson

“Introduction to Digital Signal Processing” Book Review: This self-contained book offers a comprehensive introduction to digital filtering and digital signal processing. The first half of the book covers discrete-time signals and systems, analysis of discrete-time systems, Z-transform, and realization of digital systems. The subsequent chapters deal with design of infinite impulse-response digital filters, finite impulse-response filter design, discrete Fourier transforms, and fast Fourier-transform algorithms. This book is suitable for professionals and students having prerequisite knowledge about the basics of continuous-time linear systems theory and calculus.

4. “Digital Signal Processing: Fundamentals and Applications” by Li Tan Jean Jiang

“Digital Signal Processing: Fundamentals and Applications” Book Review: This book is beneficial for undergraduate students, and practicing electrical engineers and technicians in the fields of electronics, biomedical and computer engineering. It is also helpful for science students to master the DSP principles. This book provides a comprehensive coverage of the fundamental principles of Digital Signal Processing along with application of its algorithms in software, hardware, seismic signals, vibration signals, and electrocardiography data. Essential topics like adaptive filtering with noise reduction and echo cancellations, speech compression, signal sampling, digital filter realizations, filter design, multimedia applications, over-sampling, etc. are covered in great detail. Using solved examples, mathematical proofs, MATLAB and C program codes, advanced concepts such as over-sampling ADC, adaptive filters, sub-band coding, wavelet transforms, speech compression like u-law, PCM, ADPCM, and multirate DSP are also covered. The book is suitable for electrical engineers, technicians, and undergraduate students studying biomedical, computer, and electronics engineering.

5. “Digital Signal Processing : Principles, Algorithms, and Applications” by Proakis

“Digital Signal Processing: Principles, Algorithms and Applications” Book Review: This book covers all the fundamental aspects of digital signal processing, ranging from its underlying principles to its related algorithms and applications. It discusses crucial concepts like discrete-time signals, systems and modern digital signal processing in detail. The book is intended for undergraduate and graduate students of electrical engineering, computer engineering and computer science.

6. “Digital Signal Processing : Fundamentals and Applications” by Li Tan

“Digital Signal Processing: Fundamentals and Applications” Book Review: This book provides a comprehensive coverage of the fundamental principles of Digital Signal Processing along with application of its algorithms in software and hardware. Essential topics like adaptive filtering with noise reduction and echo cancellations, speech compression, signal sampling, digital filter realizations, filter design, multimedia applications, over-sampling, etc. are covered in great detail. Advanced concepts such as over-sampling ADC, adaptive filters, speech compression like u-law, PCM, ADPCM, and multirate DSP are also covered with the help of solved examples. Exercises given at the end of each chapter make the book suitable for electrical engineers, technicians, and undergraduate students studying biomedical, computer, and electronics engineering.

7. “Digital Signal Processing: Concepts And Applications” by Mulgrew Bernard

“Digital Signal Processing: Concepts and Applications” Book Review: This book provides a comprehensive introduction of the underlying principles of digital signal processing along with a detailed analysis of the operation of such devices. The first half of the book concentrates on discrete systems, digital filters, and discrete Fourier transforms. An extended discussion on adaptive filters and spectrum analyzers and their applications in communications and radar systems using mathematical derivations is also included. Solved examples, MATLAB code, exercises and summaries are included in each chapter. This book is suitable for professional engineers, undergraduate and postgraduate students alike.

8. “Digital Signal Processing Techniques and Applications in Radar Image Processing” by Bu-Chin Wang

“Digital Signal Processing Techniques and Applications in Radar Image Processing” Book Review: This book covers the various digital signal processing techniques and their applications in radar imaging in detail. Divided into three parts, the first part of the book contains a comprehensive analysis of the principles of Digital Signal Processing, signal characteristics in analog and digital domains, advanced signal sampling, and interpolation techniques. The book’s second portion covers Antenna theory like linear-phased array, Maxwell equation, and radiation field from dipole, as well as fundamentals of Radar theory and modulation, target-detection techniques like pulsed linear frequency modulation, continuous wave, and frequency modulation. The book then concludes with a detailed discussion on algorithms used to process the radar images, their properties and results of satellite image files processed by Range-Doppler and Stolt interpolation algorithms. This book brings together material from these different areas to allow readers to gain a thorough understanding of how radar images are processed. Numerous flowcharts, system block diagrams, MATLAB codes and unsolved exercises are also provided. This is an ideal book for graduate students and practicing engineers.

9. “FPGA–based Implementation of Signal Processing Systems” by Roger Woods and John McAllister

“FPGA–based Implementation of Signal Processing Systems” Book Review: The book provides the expert discussions of the contemporary methods and tools used in design, optimization and implementation of DSP systems using programmable FPGA hardware. The book also covers FPGA solutions for Big data analysis, use of ARM processors, high level synthesis tools and graphical processing units. This book has a large number of solved examples and numericals. This book can be used by senior-level electrical and computer engineering graduates studying signal processing or digital signal processing.


3. DSP Architecture

1. “Digital Signal Processing” by Avtar Singh and S Srinivasan

Book Review: This book bridges the gap between the theory and design of digital signal processing and is very useful for graduate and undergraduate courses. This book helps the students understand the architecture, programming; interfacing of commercially available programmable DSP devices thereby using them effectively for system implementations.The book demonstrates family of DSP devices like TMS320C54xx from Texas instruments. The book helps the students understand both hardware and software for designing with programmable DSP devices.

2. “Digital Signal Processing” by Emmanuel C Ifeachor and B W Jervis

Book Review: This book covers the fundamentals, implementation and applications of digital signal processing techniques from a practical point of view. This book also covers most aspects of DSP that are found in undergraduate electrical, electronics and communication engineering. The book also covers many DSP techniques that deal with adaptive filtering and multirate processing. All throughout the book stresses on the practical aspects of DSP.

3. “Digital Signal Processors” by B Venkataramani and M Bhaskar

Book Review: This book provides a detailed understanding of the architecture and programming of digital signal processors. The book explains the concepts of digital signal processing with its applications on systems using digital signal processors. The book provides an enhanced coverage of TMS320C6X series of processors and FPGA based system design emerging trends of digital signal processors.

4. “DSP Algorithm and Architecture” by R NARENDRA

“DSP Algorithm and Architecture” Book Review: This book provides a comprehensive overview on digital signal processor algorithm and architecture. It covers topics like introduction of digital signal processing, the sampling process, discrete time sequences, discrete Fourier transform, fast Fourier transform, linear time-invariant systems, and much more. It talks about basic architectural features, bus architecture, address generation unit, features for external interfacing, and programmable digital signal processors. This book is designed to focus on students, teachers, and professionals in the field of technology and science.

5. “Parallel Algorithms and Architectures for DSP Applications” by Magdy A Bayoumi

“Parallel Algorithms and Architectures for DSP Applications” Book Review: This book provides a fundamental overview on parallel algorithms and architectures for digital signal processing applications. It covers topics like new applications in real-time image processing, satellite communications, radar signal processing, pattern recognition, and real-time signal detection and estimation require major improvements at several levels. It talks about intermediate data communication and routing, complex DSP applications, application specific systems, and others. This book is designed to focus on students, teachers, and professionals in the field of engineering and science especially electronics, electrical, and others. In the course of recent years, the interest for high velocity Advanced Sign Processing (DSP) has expanded significantly. New applications progressively picture handling, satellite correspondences, radar signal preparing, design recognition, and constant sign location and assessment require significant enhancements at a few levels; algorithmic, building, and execution. These performance necessities can be accomplished by utilizing equal preparing at all levels. Extremely Enormous Scope Combination (VLSI) innovation underpins and gives a decent road to parallelism. Parallelism offers effective solutions to a few issues which can emerge in VLSI DSP designs, for example, 1. Middle of the road information correspondence and directing: a few DSP calculations, for example, FFT, include extreme information steering and reordering. Parallelism is an effective component to limit the silicon cost and accelerate the master cessing season of the halfway center stages. 2. Complex DSP applications: the necessary calculation is practically multiplied. Parallelism will permit two comparable channels handling simultaneously. The correspondence between the two channels must be limited. 3. Application explicit frameworks: this arising approach ought to accomplish constant execution in a financially savvy way. 4. Testability and adaptation to non-critical failure: dependability has become a necessary component in the greater part of DSP frameworks. To accomplish such property, the elaborate time overhead is huge. Parallelism might be the answer for keeping up acceptable speed execution. Parallel architecture for iterative image restoration information is given in the book. Perfect shuffle communications in optically interconnected processor arrays is also given. This book also contains the experiments with parallel fast fourier transforms. Fault-Tolerance for parallel adaptive beamforming is also given in the book. Information about parallel computation of fan beam back-projection reconstruction algorithm in computed tomography is given in the book. Affine permutation of matrices is also given. Architecture for statically scheduled dataflow and design of asynchronous parallel architecture is given in detailed manner. Implementation of multiplier neural networks is given along with implementation of sparse neural networks in detail.
6. “Dsp Processor Fundamentals: Architectures And Features” by Phil Lapsley Jeff Bier Amit Shoham Edward A Lee

“Dsp Processor Fundamentals: Architectures And Features” Book Review: This book provides a detailed overview on digital signal processor fundamentals. It talks about cutting-edge technologies in detail. It provides a practical guide that brings an independent and comprehensive introduction to digital signal processor technology. It incorporates a broad range of current product offerings and provides examples that illustrate digital signal processing features and capabilities. This book is designed to focus on students, teachers, and designers in the field of engineering and science especially electronics, electrical, and others. This front line, functional guide presents to you an autonomous, thorough prologue to DSP processor innovation. An exhaustive instructional exercise and outline of DSP models, this book consolidates an expansive scope of the present item contributions in models that represent DSP highlights and abilities. This book is particularly helpful to electronic frameworks fashioners, processor draftsmen, designing supervisors, and item organizers.
7. “VLSI Synthesis of DSP Kernels: Algorithmic and Architectural Transformations” by Mahesh Mehendale Sunil D Sherlekar

“VLSI Synthesis of DSP Kernels: Algorithmic and Architectural Transformations” Book Review: VLSI Blend of DSP Parts presents the accompanying: Six distinctive objective usage styles – Programmable DSP-based execution; Programmable processors with no committed equipment multiplier; Usage utilizing equipment multiplier and adder, Conveyed Number-crunching based execution; Buildup Number Framework based execution; and Multiplier-less execution for fixed coefficient DSP portions. For every one of the usage styles, depiction and investigation of a few algorithmic and structural changes focused on at least one of diminished zone, better and low force; Robotized and semi-computerized methods for applying every one of these changes; and Order of the changes dependent on the properties that they misuse and their embodiment in a plan system. A procedure that utilizes the structure to methodically investigate the use of these changes relying upon the attributes of the calculation and the objective execution style. VLSI Combination of DSP Pieces is fundamental perusing for fashioners of both equipment and programming based DSP frameworks, engineers of IP modules for DSP applications, EDA apparatuses designers, scientists and directors keen on getting an exhaustive outline of latest things and future difficulties in ideal executions of DSP portions. It will likewise be appropriate for graduate understudies to spend significant time nearby VLSI Computerized Signal Preparing. The book is suitable for graduate students specialising in the area of VLSI Digital Signal Processing. The book contains 9 chapters that begins with the introduction of VLSI synthesis and then continues for programmable DSP based implementation. It also includes implementation using half and full adders and multipliers(using adders and shifters). It focuses on distributed arithmetic based implementation and multiplier less implementation. It also includes a framework for algorithmic and architectural transformations. For each of the implementation styles, several algorithmic and architectural transformations are proposed so as to optimally implement weighted-sum based DSP kernels over the area-display-power space and to help the reader grasp the contents correctly. The book is also suitable for students interested in DSP.
8. “Digital Signal Processing for Communication Systems ” by Tadeusz Wysocki Australian International Symposium On DSP For Communication Systems and Bahram Honary Tadeusz Wysocki UK

“Digital Signal Processing for Communication Systems” Book Review: This book provides a fundamental overview on digital signal processing for communication systems. It helps the reader understand the plans and discusses the progress that has already been made. It talks about the applications of digital signal processing in communication systems. It provides information on various types of coding and modulation techniques, describes different applications of Turbo-Codes, BCH codes and general block codes. It talks about pulse modulations, and combined modulation and coding to improve the overall system performance.

9. “Think DSP : Digital Signal Processing in Python” by Allen B Downey

“Think DSP : Digital Signal Processing in Python” Book Review: This book provides a comprehensive overview on digital signal processing. It provides numerous coded examples in python for enhanced understanding. It covers topics like periodic signals and their spectrums, harmonic structure of simple waveforms, noise signals and natural source of noise, autocorrelation function for estimating pitch, and much more. It talks about discrete cosine transform for compression, Fast Fourier Transform for spectral analysis, Linear time-invariant system theory, and others. This book is designed to focus on students, teachers, and designers in the field of engineering and science.

10. “DSP for Matlab and Labview: Discrete Frequency Transforms” by Isen Forester W

“DSP for Matlab and Labview: Discrete Frequency Transforms” Book Review: This book provides a detailed overview on digital signal processing for Matlab and Labview. It describes discrete frequency transforms in detail. It contains a brief overview of both discrete and continuous frequency transforms. It covers topics like Discrete Time Fourier Transform, Z-transform, inverse Z-transform, frequency response, the Goertzel algorithm, linear, periodic, and circular convolution, and more. This book is designed to focus on students, teachers, and designers in the field of engineering and science.

11. “Embedded DSP Processor Design: Application Specific Instruction Set Processors (Systems on Silicon)” by Dake Liu

“Embedded DSP Processor Design: Application Specific Instruction Set Processors (Systems on Silicon)” Book Review: This book is designed for students from computer science backgrounds. The basic introduction about DSP processors is given in the starting of the book. Numeric representation and finite-length DSP concepts are also explained in this book. This book also contains detailed information about DSP architectures. DSP ASIP design glow and ASIP code profiling is also given in the book. This book also contains information about simple DSP core and its peripherals and assembly instruction set design. Software development toolchain details are also given in the book along with evaluation of an instruction set. Design of DSP microarchitecture, DSP functional acceleration, register file and register bus is given in a detailed manner. ALU HW and MAC hardware implementation is also explained in this book. Control path design and design of memory subsystems is explained in this book. Real time fixed-point DSP firmware, ASIP integration and verification is explained in a detailed manner. This book also contains information about parallel streaming signal processing.

12. “Modern Digital Signal Processing: Includes Signals and Systems and Digital Signal Processing with MATLAB Programs DSP Architecture with Assembly and C Programs” by V Udayashankara

“Modern Digital Signal Processing: Includes Signals and Systems and Digital Signal Processing with MATLAB Programs DSP Architecture with Assembly and C Programs” Book Review: This book is designed for students from computer science and electrical engineering backgrounds. The basic introduction about the topic is given in the beginning of the book. The concept of continuous and discrete time signal and systems is also given in the book. Discrete time linear time invariant systems are also given in the book. Correlation also given in this book. This book also contains the concept of Fourier series and Fourier transform of continuous time signal, discrete time signal is given in detail along with its properties and applications. Z-transform is also explained in the book. Realtilization of digital time is explained in the book. Fast fourier transform and discrete cosine transform is also given in the book. FIR filters, IIR filters and Adaptive filters are explained in this book in a detailed manner. Fundamentals of multirate digital signal processing and filter bank are given. Digital signal processing arithmetic operations, data formats and error is explained in this book. Introduction about digital signal processing, its architecture and addressing mode are explained in this book. Assembly programming language is also given along with the interfacing and real time C programming. Floating point processor architecture and real time C programming also given.

13. “DSP Architecture Design Essentials (Electrical Engineering Essentials)” by Dejan Marković and Robert W Brodersen

“DSP Architecture Design Essentials (Electrical Engineering Essentials)” Book Review: This book is designed for students from computer science and electrical engineering backgrounds. Technology metrics are given in this book which include energy and delay models, circuit optimization, architecture technique details and its flexibility. DSP operations and their architecture details are explained along with time-frequency analysis, digital filters. Architecture modeling and optimized implementation is also given which contains word light and architecture optimization. Multi-GHz radio DSP details are given in the book. This book also contains MHz-rate Multi decoders aligned with dedicated SVD chip examples and flexible sphere decoder chip examples. kHz-rate neural processor is also explained in this book. This book addresses the gap between DSP algorithm design and implementation. The material includes detailed treatment of DSP implementation with arithmetic, micro-architecture, and circuit-level techniques mapped in energy-area-performance space that serves as a tool for comparing multiple architectural realizations. The architecture optimization procedure is carried out in the graphical Matlab and Simulink environment since it provides a hardware description format that is convenient for circuit designers. Many examples are presented using Synplify DSP tools. The book covers the fundamentals of development of various DSP hardware platforms; provides scientific treatment of architecture optimization using integer linear programming; analyzes current radio systems; and also includes a discussion about emerging problems related to parallel data processing in applications such as MIMO communications and neuroscience.
14. “Fundamentals of Statistical Processing, Volume I: Estimation Theory (Prentice-Hall Signal Processing Series)” by Steven M Kay

“Fundamentals of Statistical Processing, Volume I: Estimation Theory (Prentice-Hall Signal Processing Series)” Book Review: This book is designed for undergraduates, graduates, and research scholars of electrical, electronics. And also for students of embedded systems, computer engineering. The book covers how to convert theories of statistical signal processing estimation and detection into software algorithms that can be implemented on digital computers. It includes methodologies for developing signal processing algorithms, including mathematical modeling, computer simulation, and performance evaluation. Finally, it focuses on radar doppler center frequency estimation, magnetic signal detection, and heart rate monitoring.

15. “Fundamentals of Statistical Signal Processing, Volume II: Detection Theory: 002 (Prentice-Hall Signal Processing Series)” by Steven M Kay

“Fundamentals of Statistical Signal Processing, Volume II: Detection Theory: 002 (Prentice-Hall Signal Processing Series)” Book Review: This book is designed for undergraduates, graduates, and research scholars of electrical, electronics. And also for students of embedded systems, computer engineering. The book covers how to convert theories of statistical signal processing estimation and detection into software algorithms that can be implemented on digital computers. It includes methodologies for developing signal processing algorithms, including mathematical modeling, computer simulation, and performance evaluation. Finally, it focuses on radar doppler center frequency estimation, magnetic signal detection, and heart rate monitoring.


4. DSP Algorithms and Architecture

1. “Synthesis and Optimization of DSP Algorithms (Fundamental Theories of Physics)” by George Constantinides and Peter Y K Cheung

“Synthesis and Optimization of DSP Algorithms (Fundamental Theories of Physics)” Book Review: The book is designed for undergraduate students of engineering background that includes Electrical , Electronics and Telecommunication and computer Engineering. This depicts approaches taken to incorporating underlying equipment portrayals of computerized circuits from undeniable level depictions of Advanced Sign Preparing calculations. The book contains: – An instructional exercise regarding the matters of advanced plan and building amalgamation, proposed for DSP engineers, – An instructional exercise regarding the matter of DSP, expected for computerized fashioners, – A conversation of procedures for assessing the pinnacle esteems prone to happen in a DSP framework, accordingly empowering a fitting sign scaling. Scientific procedures, reproduction methods, and mixtures are talked about. The materialism of various scientific ways to deal with various kinds of DSP configuration is covered, – The improvement of strategies to enhance the accuracy prerequisites of a DSP calculation, focusing on effective execution in a custom equal processor. The thought is to compromise mathematical precision for region or force utilization focal points. Once more, both logical and recreation procedures for assessing mathematical precision are depicted and differentiated. Ideal and heuristic ways to deal with accuracy enhancement are talked about, – A conversation of the significance of the planning, designation, and restricting issues, and advancement of procedures to robotize these cycles regarding an exactness streamlined calculation, – Future viewpoints for blend and improvement of DSP calculations. A basic advance in the plan of a DSP framework is to recognize for every one of its segments (DSP bits) an execution design that gives the ideal level of adaptability/programmability and streamlines the region’s delay-power boundaries. The book covers the whole arrangement space containing both equipment multiplier-based and multiplex-less structures that offer fluctuating levels of programmability. For every one of the usage styles, a few algorithmic and compositional changes are proposed in order to ideally execute weighted-whole based DSP pieces over the zone show power space.

2. “Advances in Machine Learning and Signal Processing: Proceedings of MALSIP 2015 (Lecture Notes in Electrical Engineering)” by Mohd Shakir Saat and Ping Jack Soh

“Advances in Machine Learning and Signal Processing: Proceedings of MALSIP 2015 (Lecture Notes in Electrical Engineering)” Book Review: This book presents significant exploration discoveries and late developments in the field of AI and sign preparing. A wide scope of subjects identifying with AI and sign handling strategies and their applications are tended to furnish the two specialists and experts with an important asset recording the most recent advances and patterns. The book includes a cautious determination of the papers submitted to the 2015 Worldwide Gathering on AI and Sign Handling , which was hung on 15–17 December 2015 in Ho Chi Minh City, Vietnam with the point of offering specialists, academicians, and professionals an ideal chance to scatter their discoveries and accomplishments. The entirety of the included commitments were picked by master peer analysts from across the world based on their advantage to the local area. Notwithstanding introducing the most recent in plan, improvement, and exploration, the book gives admittance to various new calculations for AI and sign handling for designing issues.

3. “Handbook of Signal Processing Systems” by Shuvra S Bhattacharyya and Ed F Deprettere

“Handbook of Signal Processing Systems” Book Review: The Handbook of Sign Preparing Frameworks is coordinated in three sections. The initial segment persuades delegate applications that drive and apply best in class strategies for plan and usage of sign preparing frameworks; the subsequent part examines structures for executing these applications; the third part centers around compilers and recreation apparatuses, depicts models of calculation and their related plan devices and techniques. This handbook is a fundamental device for experts in numerous fields and analysts, everything being equal.

4. “VLSI and DSP Architectures (M.Tech (VLSI or Very Large Scale Integrated))” by Experienced Faculties


5. Advance Digital Signal Processing and Applications

1. “Digital Signal Processing: Principles, Algorithms, and Applications” by John G Proakis and Dimitris G Manolakis

“Digital Signal Processing: Principles, Algorithms, and Applications” Book Review: This book is well suited for students of undergraduate and graduate courses under computer engineering, computer science and electrical engineering. It has been updated to cover the fundamentals of discrete time signals, systems and modern digital signal processing. It contains balanced information on the theory aspects of this subject, as well as the practical applications of the same.

2. “Digital Signal Processing and Applications with the TMS 320C6713 and TMS 320C6416 DSK” by Rulph Chassaing and Donald Reay

“Digital Signal Processing and Applications with the TMS 320C6713 and TMS 320C6416 DSK” Book Review: This book is helpful for students and instructors alike, in DSP courses in senior undergraduate and also postgraduate levels. It is beneficial in laboratories using audio frequency signals. It contains extensive texts on hands-on applications of Digital Signal Processing. It is compatible with the Texas Instruments CCS environment as well. It contains an extensive as well as comprehensive set of examples to help students and instructors with the DSP courses.

3. “Digital Signal Processing : Princ Alg an: Principles, Algorithms and Applications for VTU” by John G Proakis

“Digital Signal Processing: Princ Alg an: Principles, Algorithms and Applications for VTU” Book Review: This book is appropriate for undergraduate and graduate courses of electrical engineering, computer engineering, and computer science. It contains a balanced coverage of not only theory but also practical applications of DSP. It starts off with the basic DSP topics like LTI systems, z-transformations, and frequency domain analysis of LTI systems. Towards the end, it covers the more advanced topics like multirate digital signal processing, linear prediction, power spectrum estimation, etc. It also has chapters on Fourier Transformations’ properties and algorithms, Discrete time systems, and linear and adaptive filters. This makes it an ideal book for a DSP course. This book has many questions and problems throughout the chapters, solved examples, along with MATLAB questions and solutions. At the end of the book, there are many solved question papers as well.

4. “Theory and Application of Digital Signal Processing” by Rabiner and Lawrence R

“Theory and Application of Digital Signal Processing” Book Review: This book is suitable for students in advanced courses of electrical engineering and also for practising engineers in the field. This book contains basic and advanced topics under digital signal processing in detail. All the chapters have comprehensive theory on discrete time linear systems, finite word length effects in digital filters and the Fast Fourier Transform. It also contains a vast introduction to the 2D Signal Processing, FFT, Applications to Digital Signal Processing to Speech and also Applications to Radar.

5. “DECODE Digital Signal Processing Applications SPPU TE COMP SEM-II” by Technical
6. “Digital Signal Processing : Mathematical and Computational Methods, Software Development And Applications” by Jonathan M Blackege

“Digital Signal Processing: Mathematical And Computational Methods, Software Development and Applications” Book Review: This book is one of the introductory books for an MSc postgraduate course in information technology and communication systems. It has a thorough explanation of both software and hardware aspects to the subject. It serves as an introduction to the field of Digital Signal Processing. It focuses mainly on the algorithms and processing of digital signals with a detailed introduction of the principle and mathematics behind the subjects of communication and control.

7. “Digital Signal Processing And Applications” by Dag Stranneby

“Digital Signal Processing and Applications” Book Review: This book is useful for undergraduate and postgraduate students with an electrical and electronic engineering background. It would be beneficial while learning about not only the basic, but also the advanced courses in DSP. This book provides information on the basic concepts along with a wide range of application based information. It is also very detailed in the chapters regarding communications and control systems engineering. It also acts as a reference material for the introduction to DSP and its applications for a professional practising engineer. It includes chapter-wise objectives and summaries along with many various exercises and worked examples along with complete solutions.

8. “Digital Signal Processing for Measurement Systems: Theory and Applications” by Gabriele D`Antona

“Digital Signal Processing for Measurement Systems: Theory and Applications” Book Review: This book acts as a very good textbook for senior undergraduate and graduate students who are studying about the DSP theory and its applications. It contains numerous definitions and application based examples hence making it a good theoretical as well as practical book. It deals with everything from the sampling theorem to the design of the FIR or IIR filters. It includes important topics like sampling periodic signals, the relationship between the sampling rate and the SNR, modern DSP based instruments, etc. It makes sure to cover the prerequisite information and the basics, before moving on to the advanced aspects.

9. “High-Level Synthesis for Real-Time Digital Signal Processing (The Springer International Series in Engineering and Computer Science)” by Jan Vanhoof and Karl Van Rompaey

“High-Level Synthesis for Real-Time Digital Signal Processing (The Springer International Series in Engineering and Computer Science)” Book Review: This book is for the researchers and the practicers in the field of ASIC engineering. This book gives ways to compile CATHEDRAL. It overcomes the drawbacks of complex and integrated systems. This book allows the reader to gain complete knowledge about the hand-crafted designs of ASICs.

10. “VLSI Digital Signal Processing Systems: Design and Implementation” by Keshab K Parhi

Book Review: This book very nicely describes the optimization techniques that are used in the field of VLSI signal processing. This book provides an integration of VLSI architecture theory and algorithms thereby addressing different architectures at the implementation level. Additionally, the book also demonstrates many approaches to analysis, estimation and reduction of power consumption. The author explains the design of high speed, low area and low power VLSI systems for many DSP applications. The book also contains various graphs that illustrate DSP algorithms and is a very good course book on VLSI digital signal processing architectures.

11. “Time Frequency Analysis: Theory and Applications (Prentice-Hall Signal Processing)” by Leon Cohen

“Time Frequency Analysis: Theory and Applications (Prentice-Hall Signal Processing)” Book Review: This book brings the basic ideas and methods that have been developed to study natural and man-made signals. It discusses frequency content changes with time―e.g., speech, sonar and radar, optical images, mechanical vibrations, acoustic signals, biological/biomedical and geophysical signals. Thus, it covers time analysis, frequency analysis, and scale analysis. The book discusses time-bandwidth relations; instantaneous frequency; densities and local quantities. There are chapters on the short time Fourier Transform; time-frequency analysis; the Wigner representation and time-frequency representations. Main focus is given on computation methods; the synthesis problem; spatial-spatial/frequency representations and time-scale representations. The volume illustrates each concept with examples. Thus,shows how the methods have been extended to other variables, such as scale. MARKET. The book serves engineers, acoustic scientists, medical scientists and developers. It is also for mathematicians, physicists, and managers working in the fields of acoustics, sonar, radar, image processing, biomedical devices, communication.

12. “VLSI Digital Signal Processing” by Vijay K Madisetti

Book Review: This book demonstrates the design and application of programmable digital signal processors, formal specification, optimization of signal processing architectures and circuits. The book also presents high level synthesis of DSP architectures, detailed analysis of application specific integrated circuits, scheduling, allocation and assignment algorithms for multiple processor DSP and deals with hardware and software design issues in DSP. The book includes both programmable and dedicated digital signal processors and optimization methods that make use of computer aided design techniques.


6. DSP Applications to Drives

1. “A Versatile DSP/FPGA Structure Optimized for Rapid Prototyping and Digital Real-time Simulation of Power Electronic and Electrical Drive Systems (Aachener Beitrage des ISEA)” by Claus-Ulrich Karipidis
2. “Applied Control of Electrical Drives: Real Time Embedded and Sensorless Control using VisSim™ and PLECS™ (Power Systems)” by Duco W J Pulle and Pete Darnell

“Applied Control of Electrical Drives: Real Time Embedded and Sensorless Control using VisSim™ and PLECS™ (Power Systems)” Book Review: This book presents to the reader comprehensive understanding of every concept related to AC electrical drives, from the motor and converter to the implemented control algorithm, that require less mathematics. It expounds on the ways electrical drive systems can be applied and debugged with a set of dedicated hardware platforms, motor setup and software tools in VisSim™ and PLECS™. Readers don’t need to have expert programming skills before they can understand the concepts in the book.

3. “The DSP Handbook: Algorithms, Applications and Design Techniques” by Dr Andy Bateman and Mr Iain Paterson-Stephens

“The DSP Handbook: Algorithms, Applications and Design Techniques” Book Review: This book has detailed explanation of topics related to the training, tools and building blocks necessary to assess and then unlock the potential of DSP in their own products and services. This book presents the training, tools and building blocks needed to evaluate and unlock the potential of DSP in their own products and services. It is written in a beginner-friendly style so anybody with or without prior knowledge of the subject matter would be able to grasp the information in the book. It discusses DSP in a matter that can be used in a classroom use or for self-study. It includes mathematical analysis in a brief and feasible style. The authors have set out to accomplish this in a manner that is easy to digest, simple to navigate, and uniquely ‘hands on’. The book is a descriptive and visual explanation of DSP that is suitable for both classroom use and self-study. Mathematical analysis is provided, where appropriate, in a concise and manageable format.
4. “DSP–Based Testing of Analog and Mixed–Signal Circuits (Systems)” by Matthew Mahoney

“DSP–Based Testing of Analog and Mixed–Signal Circuits (Systems)” Book Review: This book provides fitting replies to the frequently asked questions about how digital signal processing-based machines work and what role DSP plays in the process. It reveals the way DSP functions in real-test situations and makes use of mathematical concepts instead of derivations. Multiple problems arising from the merging of automatic test equipment and DSP complete with their solutions are included. It also includes notions on DSP-based testing and explains the best ways to think, approach a problem,produce a solution, and ascertain if it works well.

5. “DSP Applications Using C and the TMS320C6x DSK (Topics in Digital Signal Processing)” by Rulph Chassaing

“DSP Applications Using C and the TMS320C6x DSK (Topics in Digital Signal Processing)” Book Review: This is a book that is designed to help undergraduates interested in electrical and computer engineering. It is inspired from experience gotten from working with the TI line of TMS DSPs and also courses and seminars given at TI sponsored meetings. It presents the reader with knowledge on digital methods for waveform generation, digital filters, and digital signal processing tools and techniques. Every chapter starts with a theoretical discussion and examples that give the reader fundamental understanding needed to perform the concluding experiments. There are also seventy-six solved-programming examples.


7. DSP and Applications in Medicine

1. “All About DRIPs and DSPs (All About Series)” by George Fisher

“All about DRIPS and DSP’s” Book Review: This book gives a detailed explanation on the various strategies and techniques that one can use to invest in the best stocks, those with proven, long-term track records and exceptional outlooks for continued growth. Look here before you send another dollar to your broker or mutual fund to learn: Basics of DRIP and DSP investing, including what it is, how it works, and why it is right for you Resources for quickly conducting your own stock and company research. All About DRIPs and DSPs shows you how to join the millions of individual investors who have discovered these remarkably simple programs—and are using them to build substantial portfolios for themselves and their families.

2. “Digital Signal Processing for Medical Imaging Using Matlab” by E S Gopi

“Digital Signal Processing for Medical Imaging Using Matlab” Book Review: This book consists of topics that lays emphasis on medical imaging systems, such as X-ray, Computed tomography, MRI, etc. from the point of view of digital signal processing which will help the readers to learn the techniques applied to medical imaging such as Radon transformation, image reconstruction, image rendering, image enhancement and restoration.It shows the physics behind medical imaging required to fully understand the techniques being described. The design has been kept simple to help the beginners who are doing research in DSP for medical imaging. Matlab programs and illustrations are used wherever possible to reinforce the concepts being discussed.

3. “Digital Signal Processing” by John. G. Proakis and Dimitris G Manolakis

“Digital Signal Processing” Book Review: This book contains the fundamentals of discrete-time signals, systems, and modern digital processing and applications for students in electrical engineering, computer engineering, and computer science.The book is best suited for either a first-semester or a second semester undergraduate level course in discrete systems and digital signal processing. It is also intended for use in a one-semester first-year graduate-level course in digital signal processing.

4. “Essential Guide to Digital Signal Processing” by Essential Guide to Digital Signal Proces

“The Essential Guide to Digital Signal Processing ” Book Review: This book provides simple explanations of digital and analog signals and modern DSP applications.Using everyday examples and simple diagrams, two leading DSP consultants and instructors completely demystify signal processing. You’ll discover what digital signals are, how they’re generated, and how they’re changing your life. You’ll be learning everything in relation to digital signal collection, filtering, analysis, and more, and how DSP works in today’s most exciting devices and applications. This book will show us how engineers understand and work with analog signal spectra and frequencies,how digital signals are generated and used in modern electronic devices. The surprising things that happen when analog signals are converted to digital form and how (and why) engineers compute digital signal spectra with Fourier transforms,how digital filters are used in DSP applications,cutting-edge DSP usage.A comprehensive glossary of signal processing terminology and acronyms
This book will provide the reader with a clear, conceptual understanding of all key signal processing operations and vocabulary. That means the reader will understand much of the “magic” built into today’s newest devices, and the reader will be ready to succeed in virtually any nontechnical role that requires DSP knowledge.

5. “The Application of Programmable DSPs in Mobile Communications” by Alan Gatherer and Edgar Auslander

“The Application of Programmable DSPs in Mobile Communications” Book Review: This book discuss the implementation and applications of programmable DSPs, it Includes detailed introductions to speech coding, speech recognition, video and audio compression, biometric identification and their application for mobile communications devices, it discusses the alternative DSP technology which is attempting to unseat the programmable DSP from the heart of tomorrow’s mobile terminals. The book Presents innovative new applications that are waiting to be discovered in the unique environment created when mobility meets signal processing. The Application of Programmable DSPs in Mobile Communications provides an excellent overview for engineers moving into the area of mobile communications or entrepreneurs looking to understand state of the art in mobile terminals. It is also a must for students and professors looking for new application areas where DSP technology is being applied.

6. “Embedded Dsp Processor Design Application Specific Instruction Set Processors” by Liu

“Embedded Dsp Processor Design Application Specific Instruction Set Processors”
Book Review:This book provides the readers with design methods for Digital Signal Processors and Application Specific Instruction set Processors, based on the author’s extensive, industrial design experience. Top-down and bottom-up design methodologies are presented, providing valuable guidance for both students and practicing design engineers .It includes design of internal-external data types, application specific instruction sets, micro architectures, including designs for datapath and control path, as well as memory subsystems. Integration and verification of a DSP-ASIP processor are discussed and readers are provided extensive examples. This book’s “how-to” approach will help engineers design powerful, flexible products, while minimizing cost and power-consumption.

7. “DSP-Based Electromechanical Motion Control (Power Electronics and Applications Series)” by Hamid A Toliyat and Steven G Campbell

“DSP-Based Electromechanical Motion Control (Power Electronics and Applications Series)” Book Review: This book provides a general application guide for students and engineers who want to implement DSP-based motion control systems in products and industrial systems.It explains the benefits of integrating DSP into motion control, detailing the degree of freedom provided by a DSP for the development of constructive, computationally extensive algorithms. The authors explain how the use of these advanced algorithms can drastically increase the performance and efficiency of an electromechanical system. Chapters are supported by laboratory exercises which are very challenging which will enable the reader to immediately apply the information to practical scenarios. Following an extensive analysis of the LF2407 DSP processor, the book presents numerous real-world applications, demonstrating current use and inspiring future development.

8. “Digital Signal Processing” by J G Prokis and D G Manolakis

Book Review: This is a very good textbook on the introduction of digital signal processing course. The book explains the basics of discrete time signals, systems, modern digital processing and its applications and is very useful to the students studying in electrical engineering and computer science engineering. This book is suitable for semester courses at the graduate and undergraduate levels in the field of discrete systems and digital signal processing.


8. Analog, Digital and Communications Signal Processing

1. “Digital Pictures: Representation and Compression (Applications of Communications Theory)” by Arun Netravali

“Digital Pictures: Representation and Compression (Applications of Communications Theory)” Book Review: This book covers the techniques of computer processing. It provides digital circuit techniques. These techniques are available to utilize which were unimagined of only a short time ago. This book makes possible machine manipulation and interpretation of visual information. This book gives the information on how sophisticated techniques can be employed for efficient storage of images. It also includes the processing methods that can be used to significantly reduce the costs of picture transmission.

2. “Analog and Digital Signal Processing” by Ashok Ambardar

“Analog and Digital Signal Processing” Book Review: This book provides the basic principles and applications of signals, systems, transforms and filters. It uses a visual and mathematical approach. This book lets us to improve understanding of time-domain and frequency-domain relationships. It also encourages to think in both domains and switch easily from one to the other. This book extensively revised and reorganized incorporates new practical applications. It provides the design-oriented examples in every chapter.

3. “Radiation-Tolerant Delta-Sigma Time-to-Digital Converters (Analog Circuits and Signal Processing)” by Michiel Steyaert and Paul Leroux

“Radiation-Tolerant Delta-Sigma Time-to-Digital Converters (Analog Circuits and Signal Processing)” Book Review: This book targets on the design of a Mega-Gray radiation-tolerant ps-resolution time-to-digital converter (TDC) for a light detection and ranging (LIDAR) system. These are used in a gamma-radiation environment. This book involves important aspects of radiation-tolerant analog IC design. It also covers realistic applications and radiation effects on ICs. This book illustrates radiation-hardened-by-design techniques through a design-test-radiation assessment practice. It explains a new type of Time-to-Digital (TDC) converter designed for radiation-tolerant application. This book discusses the design and measurement of all functional blocks (e.g., bandgap reference, relaxation oscillator) in the TDC.

4. “RF Power Amplifiers for Mobile Communications (Analog Circuits and Signal Processing)” by Patrick Reynaert and Michiel Steyaert

“RF Power Amplifiers for Mobile Communications (Analog Circuits and Signal Processing)” Book Review: This book acts as a guide for those actively involved in the design of fully integrated CMOS wireless transceivers. It also acts as a textbook for the students having RF power amplifiers as a subject. It also serves the RF design engineers and researchers. It deals with both high efficiency and high linearity power amplifier (PA) design in low-voltage CMOS. This book provides emphasis on theory, design and implementation. It offers a mathematical background. It also provides an intuitive insight.

5. “CMOS Front Ends for Millimeter Wave Wireless Communication Systems (Analog Circuits and Signal Processing)” by Noël Deferm and Patrick Reynaert

“CMOS Front Ends for Millimeter Wave Wireless Communication Systems (Analog Circuits and Signal Processing)” Book Review: This book deals with the development of circuit and system design techniques. These techniques are for millimeter wave wireless communication systems above 90GHz. It also includes fabricated in nanometer scale CMOS technologies. This book illustrates a hands-on methodology. This was applied to design six different chips, in order to overcome a variety of design challenges. It discusses the behavior of both active and passive. It provides information on how to design them to achieve high performance is discussed in detail.

6. “Analog Circuit Design Techniques at 0.5V (Analog Circuits and Signal Processing)” by Shouri Chatterjee and K P Pun

“Analog Circuit Design Techniques at 0.5V (Analog Circuits and Signal Processing)” Book Review: This book deals with challenges for the design of MOS analog and RF circuits at a 0.5V power supply voltage. It presents all design techniques that are true low voltage techniques. It provides all nodes in the circuits within the power supply rails. This book involves circuit implementations of body and gate input fully differential amplifiers are also discussed. It enables us to build continuous-time filters, track-and-hold circuits, and continuous-time sigma delta modulators. This book discusses techniques for supply voltages down to approximately 1V. This book provides narrative ideas and results for operation from much lower supply voltages.

7. “Digital Signal Processing” by Kumar A

“Digital Signal Processing” Book Review: This book serves the undergraduate students of various streams of engineering. These include ECE, telecommunication engineering, electronics and instrumentation engineering, EEE, Electronics and Computers engineering. It also helps the students of Biomedical engineering and Medical Electronics engineering. It also acts as a textbook for AMIE and IETE students. This book provides logical and complete coverage of digital signal processing. It introduces the theory of digital signal processing. This book discusses topics ranging from basic discrete-time signals and systems to fast Fourier transform. It includes various design techniques for design of IIR and FIR filters.

8. “Digital Signal Processing: Theory, Analysis and Digital – Filter Design” by Nair

“Digital Signal Processing: Theory, Analysis and Digital – Filter Design” Book Review: This book serves the undergraduate students of EEE, electronics and instrumentation engineering, instrumentation and control engineering, ECE, CSE and Information Technology. It also acts as a textbook for students pursuing applied sciences degree courses in Electronics, Computer Science, Computer Applications, and Information Technology. This book provides an introduction to basic concepts, principles and applications of DSP. It includes the transformations techniques of signals. These techniques include Discrete-Time Fourier Transform (DTFT), Discrete Fourier Transform (DFT). It also contains Fast-Fourier Transform (FFT), and z-transform is discussed in detail. This book provides the information on the design and practical implementation schemes of analog and digital filters.

9. “Signal Processing for Industrial Diagnostics (Wiley Series in Measurement Science and Technology)” by T M Romberg and J L Black

“Signal Processing for Industrial Diagnostics (Wiley Series in Measurement Science and Technology)” Book Review: This book serves the industrial diagnostics practitioners, graduates. It also acts as a guide for undergraduates with an overview of the relevant signal processing techniques. The practical application of these techniques are taken from industrial nuclear physics, thermodynamics, mineral processing and medical diagnostics. This book includes concise treatment of information science and its subset signal processing as a logical discipline. It discusses the companion disk of demonstration software and practical data analysis exercises. This book involves seven industrial case studies as reference applications for practising industrial diagnostics engineers.

10. “Multirate Signal Processing for Communication Systems” by HARRIS

“Multirate Signal Processing for Communication Systems” Book Review: This book furnishes the communications engineer included in the physical layer of communications systems. It also involves the signal processing techniques and design tools. These tools are required to develop efficient algorithms for the design of various systems. The said systems cover satellite modems, cable modems, wire-line modems, cell-phones. They also include various radios, multi-channel receivers, audio encoders, surveillance receivers, laboratory instruments and various sonar and radar systems. This book also involves MATLAB script files.

11. “Digital Signal Processing: Principles, Algorithms and System Design” by Winser Alexander and Cranos M Williams

“Digital Signal Processing: Principles, Algorithms and System Design” Book Review: This book’s applications include topics like voice processing, image processing, digital communications, the transfer of data over the internet, image and data compression, etc. Engineers who keens on developing DSP applications today, and in the future are to address many implementation issues including mapping algorithms to computational structures, computational efficiency, power dissipation, the effects of finite precision arithmetic, throughout and are to implement hardware and It is not practical to cover all of it in a single text. Nevertheless ,this text emphasizes the practical implementation of DSP algorithms as well as the fundamental theories and analytical procedures that form the basis for modern DSP applications.


9. Communication System ICs Design Using DSP Algorithm

1. “Communication System Design Using DSP Algorithms: With Laboratory Experiments for the TMS320C6701 and TMS320C6711 (Information Technology: Transmission, Processing and Storage)” by Steven A Tretter

“Communication System Design Using DSP Algorithms: With Laboratory Experiments for the TMS320C6701 and TMS320C6711 (Information Technology: Transmission, Processing and Storage)” by Steven A Tretter Book Review: This book is designed for electronics and Telecommunication and electrical students.It includes concepts of digital signal processing and communication systems that covers both theory and practical. It consists of practicals performed with real time DSP hardware. The book starts with the basics of software and hardware tools and how to use the tools for generating sine waves. The book also covers FFT and power spectrum estimation including digital filters. It also includes Amplitude modulation and frequency modulation. It covers the QAM receiver and Echo cancellation for full duplex systems. It also covers additional problems to ensure the reader grasps the concept clearly.

2. “Digital Signal Processing Laboratory” by B Preetham Kumar

“Digital Signal Processing Laboratory” Book review: This book contains all theory and practical related contents for students pursuing education in electrical, electronics and telecommunication and computer engineering. It explains the underlying mathematics and principles of Digital filter structure and includes matlab in software computer labs. The Book initiates from brief theory of DSP concepts and problem solving. It also includes working with Oscilloscopes, Spectrum Analyzers and signal resources in hardware laboratory labs. It also teaches the concept of progression of discrete fourier transform. It also addresses Linear Time-Invariant (LTI) discrete-time signals and systems, as well as the mathematical tools used to describe them. The book also includes the different Texas instruments DSP products including the starter kit. It also includes operating principles and generating characteristics of Series Digitizing Oscilloscopes.< /div>
3. “High-Speed DSP and Analog System Design” by Thanh T Tran

“High-Speed DSP and Analog System Design” Book Review : The book is designed for electrical, electronics and telecommunication graduate students and computer Engineering students. The book provides hands-on practical analysis in analog and digital systems. The book contains 11 chapters. The book starts with an introduction to High speed DSP and analog systems. It fills the gap between Analog system design and implementation. It introduces the challenges of DSP systems and transmission line effects. It also covers the power supply considerations and effects of crosstalk. It also includes power supply decoupling and phase locked loop. It consists of Analog to digital converter and vice versa. It also includes hands on PCB(printed circuit board) and explains the electromagnetic interference completely.

4. “Embedded Image Processing on the TMS320C6000™ DSP: Examples in Code Composer Studio™ and MATLAB” by Shehrzad Qureshi

“Embedded Image Processing on the TMS320C6000™ DSP Book review: The book mainly focuses on efficient implementations of advanced image processing algorithms for resource-constrained embedded DSP systems. The book is designed for professional signal & image processing engineers working with TI DSPs. The book is designed for any domain in which students are interested in electronics. It features Texas Instruments TMS320C6000TM line of Digital Signal Processors. It provides hands-on development of the prototype code in MATLAB and Visual Studio. The book begins with the introduction to Image processing and then continues to explain the tools of Image processing with practical explanation. It also includes image filtering and spatial processing techniques. It also teaches edge detection and segmentation and explains wavelets. It dissolves the gap between theory and practical implementation.

5. “DSP System Design: Complexity Reduced IIR Filter Implementation for Practical Applications” by Artur Krukowski and Izzet Kale

“DSP System Design: Complexity Reduced IIR Filter Implementation for Practical Applications” Book Review : The book is designed for computer and electronics students. DSP System Design may be of interest to graduate students, researchers, and professionals circuit designers. It consists of 4 chapters. The 1st chapter includes the polyphase IIR filters design and implementation. It consists of frequency transformations and filter implementations. The book also provides VHDL filter implementation and design. The book would be suitable for students who would require fast and low-complexity digital filters for both single and multi-rate applications in their circuit, especially those with low-power specification. The use of polyphase IIR structures in decimation and interpolation is presented in the book including the specimens decimation filter designs to be used in Sigma-Delta lowpass.

6. “Principles of Speech Coding” by Tokunbo Ogunfunmi and Madihally Narasimha

“Principles of Speech Coding” Book review : The book is designed for students pursuing computer and Information Technology Engineering and can also be suitable for students having Electrical background. The book starts with the introduction of Speech coding and continues with fundamentals of DSP for speech coding. The book contains 13 chapters which consists of practicals and theory. The book includes sampling theory and waveform coding and quantization. It also covers differential coding and linear predictive coding. The book also contains Vector Quantisation for speech coding applications and practically how to implement them. It also teaches Analysis by synthesis coding and Internet Low-bit rate coder. The book completely focuses on the design of modern devices that rely on speech interfaces and real time DSP implementation.

7. “Design of High-Speed Blocks for Broadband Communications CMOS ICS” by Xiaoyan Gui

“Design of High-Speed Blocks for Broadband Communications CMOS ICS” Book review : This book addresses the gap between DSP algorithm design and implementation. The material includes detailed treatment of DSP implementation with arithmetic, micro-architecture, and circuit-level techniques mapped in energy-area-performance space that serves as a tool for comparing multiple architectural realizations. The architecture optimization procedure is carried out in the graphical Matlab and Simulink environment since it provides a hardware description format that is convenient for circuit designers. Many examples are presented using Synplify DSP tools. The book covers the fundamentals of development of various DSP hardware platforms; provides scientific treatment of architecture optimization using integer linear programming; analyzes current radio systems; and also includes a discussion about emerging problems related to parallel data processing in applications such as MIMO communications and neuroscience.

People who are searching for Free downloads of books and free pdf copies of these books on Digital Signal Processing – we would like to mention that we don’t have free downloadable pdf copies of these good books and one should look for free pdf copies from these Authors only if they have explicitly made it free to download and read them.

We have created a collection of best reference books on “Digital Signal Processing” so that one can readily see the list of top books on “Digital Signal Processing” and buy the books either online or offline.

If any more book needs to be added to the list of best books on Digital Signal Processing subject, please let us know.

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Manish Bhojasia - Founder & CTO at Sanfoundry
Manish Bhojasia, a technology veteran with 20+ years @ Cisco & Wipro, is Founder and CTO at Sanfoundry. He lives in Bangalore, and focuses on development of Linux Kernel, SAN Technologies, Advanced C, Data Structures & Alogrithms. Stay connected with him at LinkedIn.

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