06710nam 2200613 a 450 991045296810332120200520144314.01-118-70668-41-118-70670-61-118-70669-2(CKB)2550000001111869(EBL)1434100(OCoLC)862047111(MiAaPQ)EBC1434100(DLC) 2013023845(Au-PeEL)EBL1434100(CaPaEBR)ebr10748716(CaONFJC)MIL511761(OCoLC)847986006(EXLCZ)99255000000111186920130612d2013 uy 0engur|n|---|||||Real-time digital signal processing[electronic resource] fundamentals, implementations and applications /Sen M. Kuo, Bob H. Lee, Wenshun Tian3rd ed.Chichester, West Sussex Wiley20131 online resource (566 p.)Description based upon print version of record.1-118-41432-2 1-299-80510-8 Includes bibliographical references and index.Real-Time Digital Signal Processing: Fundamentals, implementations and applications; Contents; Preface; Acknowledgments; 1 Introduction to Real-Time Digital Signal Processing; 1.1 Basic Elements of Real-Time DSP Systems; 1.2 Analog Interface; 1.2.1 Sampling; 1.2.2 Quantization and Encoding; 1.2.3 Smoothing Filters; 1.2.4 Data Converters; 1.3 DSP Hardware; 1.3.1 DSP Hardware Options; 1.3.2 Digital Signal Processors; 1.3.3 Fixed- and Floating-Point Processors; 1.3.4 Real-Time Constraints; 1.4 DSP System Design; 1.4.1 Algorithm Development; 1.4.2 Selection of DSP Hardware1.4.3 Software Development1.4.4 Software Development Tools; 1.5 Experiments and Program Examples; 1.5.1 Get Started with CCS and eZdsp; 1.5.2 C File I/O Functions; 1.5.3 User Interface for eZdsp; 1.5.4 Audio Playback Using eZdsp; 1.5.5 Audio Loopback Using eZdsp; Exercises; References; 2 DSP Fundamentals and Implementation Considerations; 2.1 Digital Signals and Systems; 2.1.1 Elementary Digital Signals; 2.1.2 Block Diagram Representation of Digital Systems; 2.2 System Concepts; 2.2.1 LTI Systems; 2.2.2 The z-transform; 2.2.3 Transfer Functions; 2.2.4 Poles and Zeros2.2.5 Frequency Responses2.2.6 Discrete Fourier Transform; 2.3 Introduction to Random Variables; 2.3.1 Review of Random Variables; 2.3.2 Operations of Random Variables; 2.4 Fixed-Point Representations and Quantization Effects; 2.4.1 Fixed-Point Formats; 2.4.2 Quantization Errors; 2.4.3 Signal Quantization; 2.4.4 Coefficient Quantization; 2.4.5 Roundoff Noise; 2.4.6 Fixed-Point Toolbox; 2.5 Overflow and Solutions; 2.5.1 Saturation Arithmetic; 2.5.2 Overflow Handling; 2.5.3 Scaling of Signals; 2.5.4 Guard Bits; 2.6 Experiments and Program Examples; 2.6.1 Overflow and Saturation Arithmetic2.6.2 Function Approximations2.6.3 Real-Time Signal Generation Using eZdsp; Exercises; References; 3 Design and Implementation of FIR Filters; 3.1 Introduction to FIR Filters; 3.1.1 Filter Characteristics; 3.1.2 Filter Types; 3.1.3 Filter Specifications; 3.1.4 Linear Phase FIR Filters; 3.1.5 Realization of FIR Filters; 3.2 Design of FIR Filters; 3.2.1 Fourier Series Method; 3.2.2 Gibbs Phenomenon; 3.2.3 Window Functions; 3.2.4 Design of FIR Filters Using MATLAB®; 3.2.5 Design of FIR Filters Using the FDATool; 3.3 Implementation Considerations; 3.3.1 Quantization Effects in FIR Filters3.3.2 MATLAB® Implementations3.3.3 Floating-Point C Implementations; 3.3.4 Fixed-Point C Implementations; 3.4 Applications: Interpolation and Decimation Filters; 3.4.1 Interpolation; 3.4.2 Decimation; 3.4.3 Sampling Rate Conversion; 3.4.4 MATLAB® Implementations; 3.5 Experiments and Program Examples; 3.5.1 FIR Filtering Using Fixed-Point C; 3.5.2 FIR Filtering Using C55xx Assembly Program; 3.5.3 Symmetric FIR Filtering Using C55xx Assembly Program; 3.5.4 Optimization Using Dual-MAC Architecture; 3.5.5 Real-Time FIR Filtering; 3.5.6 Decimation Using C and Assembly Programs3.5.7 Interpolation Using Fixed-Point C"Real-Time Digital Signal Processing introduces fundamental digital signal processing (DSP) principles and will be updated to include the latest DSP applications, introduce new software development tools and adjust the software design process to reflect the latest advances in the field. In the 3rd edition of the book, the key aspect of hands-on experiments will be enhanced to make the DSP principles more interesting and directly interact with the real-world applications. All of the programs will be carefully updated using the most recent version of software development tools and the new TMS320VC5505 eZdsp USB Stick for real-time experiments. Due to its lower cost and portability, the new software and hardware tools are now widely used in university labs and in commercial industrial companies to replace the older and more expensive generation. The new edition will have a renewed focus on real-time applications and will offer step-by-step hands-on experiments for a complete design cycle starting from floating-point C language program to fixed-point C implementation, code optimization using INTRINSICS, and mixed C-and-assembly programming on fixed-point DSP processors. This new methodology enables readers to concentrate on learning DSP fundamentals and innovative applications by relaxing the intensive programming efforts, namely, the traditional DSP assembly coding efforts. The book is organized into two parts; Part One introduces the digital signal processing principles and theories, and Part Two focuses on practical applications. The topics for the applications are the extensions of the theories in Part One with an emphasis placed on the hands-on experiments, systematic design and implementation approaches. The applications provided in the book are carefully chosen to reflect current advances of DSP that are of most relevance for the intended readership"--Provided by publisher.Signal processingDigital techniquesTexas Instruments TMS320 series microprocessorsElectronic books.Signal processingDigital techniques.Texas Instruments TMS320 series microprocessors.621.382/2Kuo Sen M(Sen-Maw)621751Lee Bob H970718Tian Wenshun970719MiAaPQMiAaPQMiAaPQBOOK9910452968103321Real-time digital signal processing2206414UNINA