Visibility Equalizer Cutaway Visualization of Mesoscopic Biological Models

In scientific illustrations and visualization, cutaway views are often employed as an effective technique for occlusion management in densely packed scenes. We propose a novel method for authoring cutaway illustrations of mesoscopic biological models. In contrast to the existing cutaway algorithms,...

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Vydáno v:	Computer graphics forum Ročník 35; číslo 3; s. 161 - 170
Hlavní autoři:	Le Muzic, M., Mindek, P., Sorger, J., Autin, L., Goodsell, D. S., Viola, I.
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	England Blackwell Publishing Ltd 01.06.2016
Témata:	Algorithms Analysis Bars Categories and Subject Descriptors (according to ACM CCS) Computer graphics Education Equalizers I.3.3 [Computer Graphics]: Picture/Image Generation-Viewing algorithms Illustrations Interactive Specifications Studies Visibility Visualization
ISSN:	0167-7055, 1467-8659
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Abstract	In scientific illustrations and visualization, cutaway views are often employed as an effective technique for occlusion management in densely packed scenes. We propose a novel method for authoring cutaway illustrations of mesoscopic biological models. In contrast to the existing cutaway algorithms, we take advantage of the specific nature of the biological models. These models consist of thousands of instances with a comparably smaller number of different types. Our method constitutes a two stage process. In the first step, clipping objects are placed in the scene, creating a cutaway visualization of the model. During this process, a hierarchical list of stacked bars inform the user about the instance visibility distribution of each individual molecular type in the scene. In the second step, the visibility of each molecular type is fine‐tuned through these bars, which at this point act as interactive visibility equalizers. An evaluation of our technique with domain experts confirmed that our equalizer‐based approach for visibility specification is valuable and effective for both, scientific and educational purposes.
AbstractList	In scientific illustrations and visualization, cutaway views are often employed as an effective technique for occlusion management in densely packed scenes. We propose a novel method for authoring cutaway illustrations of mesoscopic biological models. In contrast to the existing cutaway algorithms, we take advantage of the specific nature of the biological models. These models consist of thousands of instances with a comparably smaller number of different types. Our method constitutes a two stage process. In the first step, clipping objects are placed in the scene, creating a cutaway visualization of the model. During this process, a hierarchical list of stacked bars inform the user about the instance visibility distribution of each individual molecular type in the scene. In the second step, the visibility of each molecular type is fine-tuned through these bars, which at this point act as interactive visibility equalizers. An evaluation of our technique with domain experts confirmed that our equalizer-based approach for visibility specification is valuable and effective for both, scientific and educational purposes. In scientific illustrations and visualization, cutaway views are often employed as an effective technique for occlusion management in densely packed scenes. We propose a novel method for authoring cutaway illustrations of mesoscopic biological models. In contrast to the existing cutaway algorithms, we take advantage of the specific nature of the biological models. These models consist of thousands of instances with a comparably smaller number of different types. Our method constitutes a two stage process. In the first step, clipping objects are placed in the scene, creating a cutaway visualization of the model. During this process, a hierarchical list of stacked bars inform the user about the instance visibility distribution of each individual molecular type in the scene. In the second step, the visibility of each molecular type is fine-tuned through these bars, which at this point act as interactive visibility equalizers. An evaluation of our technique with domain experts confirmed that our equalizer-based approach for visibility specification was valuable and effective for both, scientific and educational purposes.In scientific illustrations and visualization, cutaway views are often employed as an effective technique for occlusion management in densely packed scenes. We propose a novel method for authoring cutaway illustrations of mesoscopic biological models. In contrast to the existing cutaway algorithms, we take advantage of the specific nature of the biological models. These models consist of thousands of instances with a comparably smaller number of different types. Our method constitutes a two stage process. In the first step, clipping objects are placed in the scene, creating a cutaway visualization of the model. During this process, a hierarchical list of stacked bars inform the user about the instance visibility distribution of each individual molecular type in the scene. In the second step, the visibility of each molecular type is fine-tuned through these bars, which at this point act as interactive visibility equalizers. An evaluation of our technique with domain experts confirmed that our equalizer-based approach for visibility specification was valuable and effective for both, scientific and educational purposes. In scientific illustrations and visualization, cutaway views are often employed as an effective technique for occlusion management in densely packed scenes. We propose a novel method for authoring cutaway illustrations of mesoscopic biological models. In contrast to the existing cutaway algorithms, we take advantage of the specific nature of the biological models. These models consist of thousands of instances with a comparably smaller number of different types. Our method constitutes a two stage process. In the first step, clipping objects are placed in the scene, creating a cutaway visualization of the model. During this process, a hierarchical list of stacked bars inform the user about the instance visibility distribution of each individual molecular type in the scene. In the second step, the visibility of each molecular type is fine-tuned through these bars, which at this point act as interactive visibility equalizers. An evaluation of our technique with domain experts confirmed that our equalizer-based approach for visibility specification was valuable and effective for both, scientific and educational purposes.
Author	Mindek, P. Autin, L. Viola, I. Goodsell, D. S. Le Muzic, M. Sorger, J.
AuthorAffiliation	2 VRVis Research Center, Vienna, Austria 3 The Scripps Research Institute, La Jolla, California, USA 1 TU Wien, Austria
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References_xml	– reference: Lindow N., Baum D., Hege H.-C.: Interactive rendering of materials and biological structures on atomic and nanoscopic scale. Computer Graphics Forum 31, 3 (2012), 1325-1334. 3 – reference: Weiskopf D., Engel K., Ertl T.: Interactive clipping techniques for texture-based volume visualization and volume shading. Visualization and Computer Graphics, IEEE Transactions on 9, 3 (July 2003), 298-312. 3 – reference: Kubisch C., Tavenrath M.: Opengl 4.4 scene rendering techniques. NVIDIA Corporation (2014). 5 – reference: Krüger J., Schneider J., Westermann R.: Clearview: An interactive context preserving hotspot visualization technique. Visualization and Computer Graphics, IEEE Transactions on 12, 5 (Sept 2006), 941-948. 3 – reference: Viola I., Kanitsar A., Gröller M. E: Importance-driven feature enhancement in volume visualization. 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Visualization and Computer Graphics, IEEE Transactions on 17, 12 (Dec 2011), 1932-1941. 3 – volume: 12 start-page: 85 issue: 1 year: 2015 end-page: 91 article-title: cellPACK: a virtual mesoscope to model and visualize structural systems biology publication-title: Nature methods – volume: 32 start-page: 195 issue: 8 year: 2013 end-page: 206 article-title: Atomistic visualization of mesoscopic whole‐cell simulations using ray‐casted instancing publication-title: Computer Graphics Forum – volume: 22 start-page: 523 issue: 3 year: 2003 end-page: 532 article-title: Interactive cutaway illustrations publication-title: Computer Graphics Forum – year: 2005 – volume: 30 start-page: 811 issue: 3 year: 2011 end-page: 820 article-title: Perceptual evaluation of ghosted view techniques for the exploration of vascular structures and embedded flow publication-title: Computer Graphics Forum – year: 2007 – volume: 21 start-page: 317 issue: 3 year: 2002 end-page: 325 article-title: Transparency in interactive technical illustrations publication-title: Computer Graphics Forum – start-page: 139 year: 2004 end-page: 146 – start-page: 69 year: 2005 end-page: 76 – volume: 22 start-page: 728 issue: 1 year: 2016 end-page: 737 article-title: Occlusion‐free blood flow animation with wall thickness visualization publication-title: Visualization and Computer Graphics, IEEE Transactions on – volume: 11 start-page: 408 issue: 4 year: 2005 end-page: 418 article-title: Importance‐driven feature enhancement in volume visualization publication-title: Visualization and Computer Graphics, IEEE Transactions on – year: 2014 – start-page: 53 year: 2012 end-page: 60 – start-page: 185 year: 2012 end-page: 192 – volume: 8 start-page: 292 issue: 5 year: 1992 end-page: 6 302 article-title: Cutaways and ghosting: satisfying visibility constraints in dynamic 3d illustrations publication-title: The Visual Computer – start-page: 154:1 year: 2008 – volume: 12 start-page: 941 issue: 5 year: 2006 end-page: 948 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Snippet	In scientific illustrations and visualization, cutaway views are often employed as an effective technique for occlusion management in densely packed scenes. We...
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SubjectTerms	Algorithms Analysis Bars Categories and Subject Descriptors (according to ACM CCS) Computer graphics Education Equalizers I.3.3 [Computer Graphics]: Picture/Image Generation-Viewing algorithms Illustrations Interactive Specifications Studies Visibility Visualization
Title	Visibility Equalizer Cutaway Visualization of Mesoscopic Biological Models
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