It is a great honor and pleasure for me to introduce this book “Applications of Digital
Signal Processing” being published by InTech. The field of digital signal processing is
at the heart of communications, biomedicine, defense applications, and so on. The field
has experienced an explosive growth from its origins, with huge advances both in
fundamental research and applications.
Tuyển tập báo cáo các nghiên cứu khoa học quốc tế ngành hóa học dành cho các bạn yêu hóa học tham khảo đề tài: Research Article Prototype Implementation of Two Efﬁcient Low-Complexity Digital Predistortion Algorithms
Digital electronics is one of the fundamental courses found in all electrical
engineering and most science programs. The great variety of LabVIEW
Boolean and numeric controls/indicators, together with the wealth of
programming structures and functions, make LabVIEW an excellent tool to
visualize and demonstrate many of the fundamental concepts of digital
electronics. The inherent modularity of LabVIEW is exploited in the same
way that complex digital integrated circuits are built from circuits of less
complexity, which in turn are built from fundamental gates.
Digital Systems Design and Prototyping: Using Field Programmable Logic and Hardware Description Languages, Second Edition covers the subject of digital systems design using two important technologies: Field Programmable Logic Devices (FPLDs) and Hardware Description Languages (HDLs). These two technologies are combined to aid in the design, prototyping, and implementation of a whole range of digital systems from very simple ones replacing traditional glue logic to very complex ones customized as the applications require.
Give insight in the design of digital electronic
systems at the gate and register-transfer level
• Teach the use of modern design tools
• Offer all building blocks needed to construct
complex digital circuits, including processors
• Present the difference between functional
requirements (operation) and non-functional
requirements (cost, speed, power, area)
• Introduce modern implementation platforms: PLA,
This book is about the digital logic design of microprocessors. It is intended to provide both an understanding of
the basic principles of digital logic design, and how these fundamental principles are applied in the building of
complex microprocessor circuits using current technologies. Although the basic principles of digital logic design
have not changed, the design process, and the implementation of the circuits have changed.
Growth naturally stimulates change, and CCTV technology has
been no exception. A system that once merely required cameras,
cabling, and video monitors has now become a complex electronic
confi guration of equipment intertwined with both computer and
telecommunications technologies. This dramatic change is directly
related to the introduction of digital technology. Why do we need
to understand how digital technology works, and what does it
have to do with the future of security? It’s simple—the newest
revolution in technology is pervasive computing.
The properties of Convolutional codes.
We introduced interleaving as a means
to combat bursty errors by making the
channel seem uncorrelated.
We also studied “Concatenated codes”
that simply consist of inner and outer
codes. They can provide the required
performance at a lower complexity.
A vector graphic is usually a drawing that is made up of lines and curves. A raster (or bitmap) graphic is a complex picture, made up of pixels, or small squares of color in grid. Chapter 2 - Vector graphics in word. In this chapter you will learn: Identify vector and raster graphics, compare vector and raster graphics, display the drawing toolbar, identify drawing tools,...
Chapter 8 - Integrating Publisher and Illustrator. In this chapter you will learn: Compare desktop publishing applications and tools, evaluate client needs, compare file formats, identify palettes used to create complex shapes, apply the Layers palette, create shapes with tools,...
Strength reduction leads to a reduction in hardware complexity by exploiting substructure sharing and leads to less silicon area or power consumption in a VLSI ASIC implementation or less iteration period in a programmable DSP implementation. Strength reduction enables design of parallel FIR filters with a lessthan-linear increase in hardware.
Hardware and Computer Organization is a practical introduction to the architecture of modern microprocessors for students and professional alike. It is designed to take practicing professionals "under the hood” of a PC and provide them with an understanding of the basics of the complex machine that has become such a pervasive part of our everyday life. It clearly explains how hardware and software cooperatively interact to accomplish real-world tasks.
Modern electronic systems are increasingly digital: digital microprocessors,
digital logic, digital interfaces. Digital logic is easier to design and understand,
and it is much more ﬂexible than the equivalent analog circuitry would be.
As an example, imagine trying to implement any kind of sophisticated micro-
processor with analog parts. Digital electronics lets the PC on your desk
execute different programs at different times, perform complex calculations,
and communicate via the World Wide Web....
The central theme of this book is the use of reliability and availability computations as a means of comparing fault-tolerant designs. This chapter deﬁnes fault-tolerant computer systems and illustrates the prime importance of such techniques in improving the reliability and availability of digital systems that are ubiquitous in the 21st century. The main impetus for complex, digital systems is the microelectronics revolution, which provides engineers and scientists with inexpensive and powerful microprocessors, memories, storage systems, and communication links. ...
Introduction A Historical Perspective
The Cooley-Tukey Mapping • Radix-2 and Radix-4 Algorithms • Split-Radix Algorithm • Remarks on FFTs with Twiddle Factors Basic Tools • Prime Factor Algorithms  • Winograd’s Fourier Transform Algorithm (WFTA)  • Other Members of This Class  • Remarks on FFTs Without Twiddle Factors Multiplicative Complexity • Additive Complexity Inverse FFT • In-Place Computation • Regularity, Parallelism • Quantization Noise DFT Algorithms for Real...
One-dimensional nonlinear systems, although simple in form, are applicable in a surprisingly wide variety of engineering contexts. As models for engineering systems, their richly complex behavior has provided insight into the operation of, for example, analog-to-digital converters , nonlinear oscillators , and power converters . As realizable systems, they have been proposed as
The ﬁeld of design automation (DA) technology, also commonly called computer-aided design (CAD) or computer-aided engineering (CAE), involves developing computer programs to conduct portions of product design and manufacturing on behalf of the designer. Competitive pressures to produce more efﬁciently new generations of products having improved function and performance are motivating the growing importance of DA. The increasing complexities of microelectronic technology, shown in Fig. 34.1, illustrate the importance of...
Parameter Synchronization for Flat Fading Channels
In Chapters 14 and 15, important aspects of digital receiver synchronization for fading channels are discussed. The two sections of Chapter 14 concentrate on linear sync parameter estimation for the flat fading case, i.e., flat fading channel estimation. The derivation of many of the algorithms presented here draws from the ideas and results of Chapter 12.
A lovable Soft Coated Wheaton Terrier is the subject of
this project, which features advanced drawing techniques
for accurately rendering both long and short fur, realistic
“puppy dog” eyes, and a shiny textured nose.
A complex grid helps you to sketch accurate proportions.
The shading focuses on rendering the forms of the fur and
individual features, as defined by a dominant light source.