"Digital Image: Theories, Algorithms, and Applications" introduces the fundamentals of digital image processing through student centric approach. Comprehensive digital image theory narrated by prototype computing or graphing eliminates mathematical intricacy of two dimensional computing or double summation involvement - a salient feature of the text. Numerical subjectiveness assists the reader to be a good professional in the field of digital image processing which is systematically taken care of. Neoteric presentation, illustrative drills, concise methodology, and overwhelming material omission wherever possible are designed to render a pertinent text. Most relevant undergraduate class discussed digital image processing topics which are taught in a one semester course are highlighted since they are the main audience.

"Control System Analysis & Design in MATLAB and SIMULINK" is blueprinted to solve undergraduate control system engineering problems in MATLAB platform. Unified view of control system fundamentals is taken into account in the text. One key aspect of the text is the presentation of computing and graphing materials in a simple intuitive way. Many advances in virtual implementation on control systems have been seen in the past decade. The text elucidates the web of concepts underpinning these advances. Self-working out illustrations and end-of-chapter exercises enthuse the reader a checkup on thorough understanding. The comprehensive introduction will benefit both undergraduates and graduates studying control system and engineering. Also researchers in the field can have the text as reference.

"Finite Difference Fundamentals in MATLAB" is devoted to the solution of numerical problems employing basic finite difference (FD) methods in MATLAB platform. FD is one momentous tool of numerical analysis on science and engineering problems. Advent of faster speed computer processors and user-friendliness of MATLAB have marvelously facilitated FD solution obtaining what is demonstrated in every chapter. Another aspect of the text is juxtaposition on computing and graphing features. The coverage narrates key executional MATLAB style of FD terminologies without arithmetic complexity. Self-training illustrations and end-of-chapter exercises inspire the reader a checkup on thorough understanding. The comprehensive introduction will benefit science and engineering undergraduates studying numerical analysis issues ranging archetype to advanced.

"Digital Audio Fundamentals in MATLAB" introduces the basics of digital audio study and analysis in the platform of MATLAB, a computing and a graphing software. Almost every chapter initiates the audio terms and concepts considering a prototype discrete signal and computer execution of which for a digital audio follows latter. Accessible MATLAB functional tools pertaining to fundamental theory and applications render neoteric methodology to solving digital audio problems contemporarily which is known as problem based learning (PBL) and for which the text is a perfect reference. Diverse elementary topics, facilitating approach, and executional details will benefit undergraduate and graduate students and research engineers of ever evolving digital audio engineering or multimedia field.

The text reveals inherent simplistic tools of MATLAB as how-to-implement approach for the topics which usually belong under the banner of basic electromagnetic theory. Coherent account of electromagnetic topics and their computer exercises have been essential for the study and research in the electrical sciences and applied physics - in this regard the text coverage is unparallel and immediately exercisable. MATLAB embedded functions are demonstrated to be congenial despite abstractness and higher dimensionality of electromagnetics. Equipped neoteric tools will benefit undergraduate and graduate students and research engineers in the field.

The text is intended to serve as a basic reference for signal and system course taught in undergraduate curriculum of electrical engineering and stresses concept-to-implementation approach in a facilitating fashion. Presented neoteric tools of MATLAB and SIMULINK generate computer solutions so expediently that our PC or Laptop turns to a virtual electric system. Rather than leading the reader through mathematical intricacy, straightforward implementation of the course terms is demonstrated throughout the text by introducing objective statement. Wherever feasible the supplement presents computing as well as modeling means to working out in a variety of signal and system problems. Parallel treatment is drawn for the continuous and discrete systems to quote the executional difference between the two systems. For signal characteristic study either in elementary or advanced level and system response analysis, the text will prove beneficial to the next-generation electrical engineers or their connected learners.

The book provides hand-on guidelines for employing MATLAB and SIMULINK tools meant for the problems of introductory electrical circuit course. Computer-generated solutions of electric circuit problems through the wings of MATLAB and SIMULINK certify reader's intuition about the learning of circuit fundamentals. The supplement explores computational as well as modeling approach to circuit analysis wherever possible. With the distinctive features such as concise programming provision, interactive facility, and fully featured graphics environment of MATLAB, electric circuit study has never been so straightforward. Comprehensive introduction, prototype examples with expected circuit return, and substantial number of illustrative circuit problems ranging from easy-solvable to tough-realizable are the salient features of the text. It is hoped that maintaining made-easy approach and attaching minute implementational details with minimal theory yet firm emphasis on circuit-solving will form a better foundation to the next-generation electrical engineers or their linked learners.

The book is mainly concerned with the fundamental Digital Image Processing (DIP) problems much found in the DIP textbooks. Emphasis has been given to the subjective implementation on the DIP problems while working in MATLAB. Starting from simplistic example without undue neglect of mathematical intricacies and making the reader able to tackle a practical DIP problem are the salient features of the text. However, the notable features of the text are as follows: A step by step guide for the Digital Image Processing undergraduate and graduate students while using MATLAB as their working platform Introduces modular image examples so that the reader can grasp the concept quickly and manipulate the practical images very easily Image processing engineers, teachers, researchers, and scientists willing to work in MATLAB may benefit from the text Made-easy approach and clear presentation style comfort the average reader to go through the Digital Image Processing know-how immediately Minute implementational descriptions are taken care of considering adequate image examples Suited to individual or classroom practice Ten chapters in the text narrate the following: 1. Introduction to MATLAB 2. Digital Image Fundamentals 3. Digital Images In Spatial Domain 4. Digital Image Transforms 5. Digital Image Filtering 6. Digital Image Properties and Edges 7. Image Degradation and Restoration 8. Morphological Image Processing 9. Miscellaneous Image Processing 10. Programming Issues

The subject matter of this book is to present the procedural steps required for modeling and simulating the basic dynamic system problems in SIMULINK (a supplementary part of MATLAB) which follow some definitive model. However, the key features of the text can be cited as follows: The book is on the whole a guiding tool for the undergraduate and graduate students of science and engineering who want to work out or simulate the classroom modeling problems using SIMULINK To check the understanding of SIMULINK output and deliberate the reliability on SIMULINK, analytical solutions of the model outputs are inserted in most chapters Since the text presents modeling ranging from elementary to advanced level, audience spectrum of the text includes engineers, teachers, researchers, and scientists who are beginners in using SIMULINK Know-how aspects of SIMULINK are covered in a made-easy way so that the average reader becomes benefited even if starting from the scratch Tabular block links at the end of each chapter required for a particular class of problems help the reader bring them in the model file and simulate quickly Over 300 classroom-modeling examples are simulated with clarity and systematic steps Appropriate for individual or classroom exercise There are ten chapters in the book bearing the following titles: Introduction to SIMULINK Modeling Mathematical Functions and Waves Modeling Ordinary Differential Equations Modeling Difference Equations Modeling Common Problems of Control Systems Modeling Some Signal Processing Problems Modeling Common Matrix Algebra Problems Modeling Common Statistics and Conversion Problems Fourier Analysis Problems Miscellaneous Modeling and Some Programming Issues