Language : English
Published : 2017-09-18
Pages : 1024
Digital Image Processing 4th Global Edition
For courses in Image Processing and Computer Vision. Introduce your students to image processing with the industry’s most prized textFor 40 years, Image Processing has been the foundational text for the study of digital image processing. The book is suited for students at the college senior and first-year graduate level with prior background in mathematical analysis, vectors, matrices, probability, statistics, linear systems, and computer programming. As in all earlier editions, the focus of this edition of the book is on fundamentals. The 4th Edition, which celebrates the book’s 40th anniversary, is based on an extensive survey of faculty, students, and independent readers in 150 institutions from 30 countries. Their feedback led to expanded or new coverage of topics such as deep learning and deep neural networks, including convolutional neural nets, the scale-invariant feature transform (SIFT), maximally-stable extremal regions (MSERs), graph cuts, k-means clustering and superpixels, active contours (snakes and level sets), and exact histogram matching. Major improvements were made in reorganizing the material on image transforms into a more cohesive presentation, and in the discussion of spatial kernels and spatial filtering. Major revisions and additions were made to examples and homework exercises throughout the book. For the first time, we added MATLAB projects at the end of every chapter, and compiled support packages for students and faculty containing, solutions, image databases, and sample code.
A major objective of this book is to fill the gap between traditional logic design principles and logic design/optimization techniques used in practice. Over the last two decades several techniques for computer-aided design and optimization of logic circuits have been developed. However, underlying theories of these techniques are inadequately covered or not covered at all in undergraduate text books. This book covers not only the “classical” material found in current text books but also selected materials that modern logic designers need to be familiar with.
About the Author
Parag K. Lala, PhD, DSc(Eng), is the Cary and Lois Patterson Chair of Electrical Engineering at Texas A&M University-Texarkana. Dr. Lala is the author of five books, including Fault-Tolerant and Fault-Testable Hardware Design and Practical Digital Logic Design and Testing. Dr. Lala was named a Fellow of the IEEE for “contributions to the development of self-checking logic and associated checker design.” He is also a Fellow of the Institution of Engineering and Technology, United Kingdom.
Nelson Systems Engineering VCE Units 1-4 has been thoroughly updated and produced in full colour for better student learning. This comprehensive and useful resource book has two new chapters on digital manufacturing and control systems, and many more photos throughout.
Table of Contents
Introduction The systems engineering process Syllabus outcomes guide 1 Understanding systems Case study 1: Water treatment and recycling system 2 Technology systems in society Case study 2: Manufacturing and technology 3 Energy systems Case study 3: Solar house 4 Mechanical systems 5 Electrotechnology 6 Digital manufacturing 7 Control systems Case study 4: Remote control systems 8 Testing engineering systems Case study 5: Testing flight data systems 9 The systems engineering process Case study 6: Vehicle style and design 10 Production: Equipment, safety and materials Revision tasks A – Z Systems terminology Index
For first-year or introductory courses in Engineering and Computer Science With a hands-on approach and focus on problem solving, this introduction to the powerful MATLAB computing language is designed for students with only a basic college algebra background. Numerous examples are drawn from a range of engineering disciplines, demonstrating MATLAB’s applications to a broad variety of problems.
This write-in workbook is an invaluable resource to help learners’ improve their Maths and English skills and help prepare for Level 1 and Level 2 Functional Skills exams. The workbook format enables learners to practice and improve their maths and English skills and the real-life questions, exercises and scenarios are all written with an electrical Installation context to help learners find essential Maths and English theory understandable, engaging and achievable. This workbook is an invaluable resource to support Maths and English learning in the classroom, at work and for personal study at home.
About the Author
Andrew Spencer has studied education both within Australia and overseas. He has a Bachelor of Education, as well as a Masters of Science in which he specialised in teacher education. Andrew has extensive experience in teaching secondary mathematics throughout New South Wales and South Australia for well over fifteen years. He has taught a range of subject areas including Maths, English, Science, Classics, Physical Education and Technical Studies. His sense of the importance of practical mathematics continued to develop with the range of subject areas he taught in. Robert Henley is a lecturer for Electrical Installation for Level 1 and 2 at the Southampton City College. Robert has a vast knowledge of the Electrical engineering industry gained from working as an electrician. Robert is an experienced lecturer of level 1 and 2 Electrotechnical qualifications.