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Title The visualization handbook / edited by Charles D. Hansen, Chris R. Johnson.

Imprint

Amsterdam ; Boston : Elsevier-Butterworth Heinemann, Š2005.

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Available to Pittsburg State University patrons only.

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Location	Call No.	OPAC Message	Status
Axe Elsevier ScienceDirect Ebook	Electronic Book	---	Available

Description	1 online resource (xvii, 962 pages) : illustrations
	text txt rdacontent
	computer c rdamedia
	online resource cr rdacarrier
Summary	The Visualization Handbook provides an overview of the field of visualization by presenting the basic concepts, providing a snapshot of current visualization software systems, and examining research topics that are advancing the field. This text is intended for a broad audience, including not only the visualization expert seeking advanced methods to solve a particular problem, but also the novice looking for general background information on visualization topics. The largest collection of state-of-the-art visualization research yet gathered in a single volume, this book includes articles by a whos who of international scientific visualization researchers covering every aspect of the discipline, including: Virtual environments for visualization Basic visualization algorithms Large-scale data visualization Scalar data isosurface methods Visualization software and frameworks Scalar data volume rendering Perceptual issues in visualization Various application topics, including information visualization. * Edited by two of the best known people in the world on the subject; chapter authors are authoritative experts in their own fields; * Covers a wide range of topics, in 47 chapters, representing the state-of-the-art of scientific visualization.
Contents	Visualization Handbook -- Section One: -- Introduction by Johnson and Hansen -- Chapter 1. Overview of Visualization by Schroeder -- -- Section Two: Scalar Field Visualization -- Isosurfaces -- Chapter 1. Accelerated Isosurface Extraction Approaches by Livnat -- Chapter 2. Time Dependent Isosurface Extraction by Shen -- Chapter 3. Optimal Isosurface Extraction by Scopigno, Cignoni, Montani and Puppo -- Chapter 4. Isosurface Extraction using Extrema Graphs by Koyamada and Takayuki -- Chapter 5. Isosurfaces and Level-Sets by Whitaker -- Section Three: Scalar Field Visualization Volume Rendering -- Chapter 1. Overview of Volume Rendering by Arie Kaufman and Klaus Mueller -- Chapter 2. Volume Rendering using Splatting by Crawfis, Xue and Zhang -- Chapter 3. Multi-Dimensional Transfer Functions for Volume Rendering by Kniss, Kindlemann and Hansen -- Chapter 4. Preintegrated Volume Rendering by Kraus and Ertl -- Chapter 5. Hardware-Accelerated Volume Rendering by Pfister -- Section Four: Vector Field Visualization -- Chapter 1. Flow Visualization Overview by Weiskopf and Erlebacher -- Chapter 2. Flow Textures by Gordon Erlebacher, Jobard and Weiskopf -- Chapter 3. Detection and Visualization of Vortices by Jiang, Machiraju, and Thompson -- Section Five: Tensor Field Visualization -- Chapter 1. Oriented Tensor Reconstruction by Leonid Zhukov and Alan H. Barr -- Chapter 2. Diffusion Tensor MRI Visualization by Zang, Kindlemann and Laidlaw -- Chapter 3. Topological Methods for Tensor Visualization by Scheuermann and Tricoche -- Section Six: Geometric Modeling for Visualization -- Chapter 1. 3D Mesh Compression by Rossignac -- Chapter 2. Variational Modeling Methods for Visualization by Hagen and Hotz -- Chapter 3. Model Simplification by Cohen and Manocha -- Section Seven: Virtual Environments for Visualization -- Chapter 1. Direct Manipulation in Virtual Reality by Bryson -- Chapter 2. The Visual Haptic Workbench by Ikits and Brederson -- Chapter 3. Virtual Geographic Information Systems by Ribarsky -- Chapter 4. Visualization Using Virtual Reality by Loften, Chen and Rosenblum -- Section Eight: Large-scale Data Visualization -- Chapter 1. A Desktop Delivery: Access to Large Data Sets by Heermann and Pavlakos -- Chapter 2. Techniques for Visualizing Time-Varying Volume Data by Ma and Lum -- Chapter 3. Large Scale Data Visualization and Rendering: A Problem Driven Approach by McCormick and Ahrens -- Chapter 4. Issues and Architectures for Large Data Visualization by Pavlakos and Heermann -- Chapter 5. Consuming Network Bandwidth with Visapult by Bethel and Shalf -- Section Nine: Visualization Software and Frameworks -- Chapter 1. VTK The Visualization Toolkit by Schroeder and Martin -- Chapter 2. Visualization in the SCIRun Problem Solving Environment by Parker et al. -- Chapter 3. NAGs Iris Explorer by Walton -- Chapter 4. AVS and AVS Express by Favre and Valle -- Chapter 5. Vis5D, Cave5D and VisAD by Hibbard -- Chapter 6. Visualization with AVS by Manchester Visualization Center -- Chapter 7. ParaView by Ahrens, Geveci and Law -- Chapter 8. The Insight Toolkit (ITK) by Yoo -- Chapter 9. Amira- a Highly-interation system for Visual Data Analysis by Stalling, Westerhoff, Hege -- Section Ten: Perceptual Issues in Visualization -- Chapter 1. Extending Visualization to Perception: The Importance of Perception in Effective Communication of Information by Ebert -- Chapter 2. Art and Science Visualization by Interrante -- Chapter 3. Exploiting Human Visual Perception in Visualization by Chalmers and Cater -- Section Eleven: Selected Topics and Applications -- Chapter 1. Scalable Network Visualization by Eick -- Chapter 2. Visual Data Mining Techniques by Keim, Sips, Ankerst -- Chapter 3. Visualization in Weather and Climate Research by Middleton and Wilhelmson -- Chapter 4. Painting and Visualization by Kirby, Keefe, and Laidlaw -- Chapter 5. Visualization and Natural Control Systems for Microscopy by Taylor, Borland, Brooks, Falvo et al. -- Chapter 6. Visualization for Computational Accelerator Physics by Ma, Schussonan, Wilson.
Bibliography	Includes bibliographical references and index.
Contents	Part I. Introduction -- Part II. Scalar field visualization: isosurfaces -- Part III. Scalar field visualization: volume rendering -- Part IV. Vector field visualization -- Part V. Tensor field visualization -- Part VI. Geometric modeling for visualization -- Part VII. Virtual environments for visualization -- Part VIII. Large-scale data visualization -- Part IX. Visualization software and frameworks -- Part X. Perceptual issues in visualization -- Part XI. Selected topics and applications.
Note	Print version record.
Subject	Information visualization.
	Computer graphics.
	Computer Graphics
	Visualisation de l'information.
	Infographie.
	computer graphics.
	Computer graphics
	Information visualization
	Grafische voorstellingen.
	Visualisatie.
	Methodologie.
Added Author	Hansen, Charles D.
	Johnson, Chris R.
Other Form:	Print version: Visualization handbook. Amsterdam ; Boston : Elsevier-Butterworth Heinemann, Š2005 012387582X 9780123875822 (DLC) 2004020457 (OCoLC)56494002
ISBN	9780123875822
	012387582X
	0080481647 (electronic bk.)
	9780080481647 (electronic bk.)
Standard No.	AU@ 000060851197
	CHBIS 005673103
	CHBIS 009856982
	CHNEW 001006414
	CHVBK 167218484
	CHVBK 198930372
	DEBBG BV042315819
	DEBSZ 367751658
	NZ1 12434951
	NZ1 15830316