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An Introduction to Verification of Visualization Techniques

Buch | Softcover
92 Seiten
2015
Morgan and Claypool Life Sciences (Verlag)
978-1-62705-833-9 (ISBN)
48,55 inkl. MwSt
As we increase our reliance on computer-generated information, often using it as part of our decision-making process, we must devise tools to assess the correctness of that information. The goal of this book is to introduce the reader to software verification in the context of visualization.
As we increase our reliance on computer-generated information, often using it as part of our decision-making process, we must devise tools to assess the correctness of that information. Consider, for example, software embedded on vehicles, used for simulating aircraft performance, or used in medical imaging. In those cases, software correctness is of paramount importance as there's little room for error. Software verification is one of the tools available to attain such goals. Verification is a well known and widely studied subfield of computer science and computational science and the goal is to help us increase confidence in the software implementation by verifying that the software does what it is supposed to do.

The goal of this book is to introduce the reader to software verification in the context of visualization. In the same way we became more dependent on commercial software, we have also increased our reliance on visualization software. The reason is simple: visualization is the lens through which users can understand complex data, and as such it must be verified. The explosion in our ability to amass data requires tools not only to store and analyze data, but also to visualize it.

This book is comprised of six chapters. After an introduction to the goals of the book, we present a brief description of both worlds of visualization (Chapter 2) and verification (Chapter 3). We then proceed to illustrate the main steps of the verification pipeline for visualization algorithms. We focus on two classic volume visualization techniques, namely, Isosurface Extraction (Chapter 4) and Direct Volume Rendering (Chapter 5). We explain how to verify implementations of those techniques and report the latest results in the field of verification of visualization techniques. The last chapter concludes the book and highlights new research topics for the future.

Tiago Etiene received his computer science and M.S. degrees from the University of Sao Paulo in 2006 and 2008, respectively, and his Ph.D. degree from the University of Utah in 2013. His research on the field of verifiable visualizations serves as the basis for this book. In addition, his research interests include geometry processing, computer graphics, scientific and information visualization, and related areas. He is a research scientist at Modelo Inc. working with cutting edge geometry processing tools tailored to geosciences applications. Robert M. (Mike) Kirby received an M.S. degree in applied mathematics, an M.S. degree in computer science, and a Ph.D. degree in applied mathematics from Brown University, Providence, RI, in 1999, 2001, and 2002, respectively. He is currently a Professor of Computing and Associate Director of the School of Computing, University of Utah, Salt Lake City, where he is also an Adjunct Professor in the Department of Bioengineering and Mathematics and a member of the Scientific Computing and Imaging Institute. His current research interests include scientific computing and visualization. Claudio T. Silva is a professor of computer science and engineering and data science at New York University. Claudio's research lies in the intersection of visualization, graphics, data analysis, and geometric computing, and recently he has been interested in urban data and sports analytics. He has published over 220 journal and conference papers, and he is an inventor of 12 U.S. patents. He received a B.S. in mathematics from the Federal University of Ceara (Brazil) in 1990, and a Ph.D. in computer science from State University of New York at Stony Brook in 1996. He has held positions in academia and industry, including at AT&T, IBM, Lawrence Livermore, Sandia, and the University of Utah. He is an active member of the research community, has participated in more than 100 international program committees, served on the editorial boards of multiple journals, including the IEEE Transactions on Visualization and Computer Graphics, ACM Transactions on Spatial Algorithms and Systems, and IEEE Transactions on Big Data, and served as general and papers co-chair of a number of conferences, including the IEEE Visualization. Silva's work has received a number of major awards. In 2013, he was elected an Institute of Electrical and Electronics Engineers fellow and in 2014 he won the IEEE Visualization Technical Achievement Award. He helped develop MLB.com's Statcast player tracking system, which won the Alpha Award for Best Analytics Innovation/Technology at the 2015 MIT Sloan Sports Analytics Conference. In 2015, he was elected Chair of the IEEE Technical Committee on Visualization and Computer Graphics.

Preface
Introduction
Visualization in the Real World
Validation and Verification in Simulation Science
Isosurface Verification
Volume Rendering Verification
Conclusion
Bibliography
Authors' Biographies

Erscheinungsdatum
Reihe/Serie Synthesis Lectures on Visual Computing: Computer Graphics, Animation, Computational Photography, and Imaging
Verlagsort San Rafael, CA
Sprache englisch
Maße 191 x 235 mm
Gewicht 333 g
Themenwelt Mathematik / Informatik Informatik Grafik / Design
Informatik Theorie / Studium Künstliche Intelligenz / Robotik
ISBN-10 1-62705-833-8 / 1627058338
ISBN-13 978-1-62705-833-9 / 9781627058339
Zustand Neuware
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