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A Visualization Tool Used to Develop New Photon Mapping Techniques / B. Spencer; M. W. Jones; I. S. Lim

Computer Graphics Forum, Volume: 34, Issue: 1, Pages: 127 - 140

Swansea University Author: Jones, Mark

DOI (Published version): 10.1111/cgf.12464

Abstract

We present a visualisation tool aimed specifically at the development and optimisation of photon map denoising methods. Our tool allows the rapid testing of hypotheses and algorithms through the use of parallel coordinates, domain-specific scripting, color mapping and point plots. Interaction is car...

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Published in: Computer Graphics Forum
Published: 2015
Online Access: http://cs.swansea.ac.uk/%7Ecsmark/PDFS/2014_metavis.pdf
URI: https://cronfa.swan.ac.uk/Record/cronfa18728
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first_indexed 2014-10-16T01:30:04Z
last_indexed 2019-07-17T20:10:32Z
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spelling 2019-07-17T14:53:41Z v2 18728 2014-10-15 A Visualization Tool Used to Develop New Photon Mapping Techniques Mark Jones Mark Jones true 0000-0001-8991-1190 false 2e1030b6e14fc9debd5d5ae7cc335562 dda0c29127c698255a4c2b822dd94125 uiPdnV+XNibOpUxFjI3lXQgr5y2nBRz3haj4DmVVDsQ= 2014-10-15 SCS We present a visualisation tool aimed specifically at the development and optimisation of photon map denoising methods. Our tool allows the rapid testing of hypotheses and algorithms through the use of parallel coordinates, domain-specific scripting, color mapping and point plots. Interaction is carried out by brushing, adjusting parameters and focus-plus-context, and yields interactive visual feedback and debugging information. We demonstrate the use of the tool to explore high-dimensional photon map data, facilitating the discovery of novel parameter spaces which can be used to dissociate complex caustic illumination. We then show how these new parameterisations may be used to improve upon pre-existing noise removal methods in the context of the photon relaxation framework. Journal article Computer Graphics Forum 34 1 127 140 23 2 2015 2015-02-23 10.1111/cgf.12464 http://cs.swansea.ac.uk/%7Ecsmark/PDFS/2014_metavis.pdf College of Science Computer Science CSCI SCS Visual Computing None 2019-07-17T14:53:41Z 2014-10-15T15:15:35Z College of Science Computer Science B. Spencer 1 M. W. Jones 2 I. S. Lim 3 0018728-15042015120043.pdf A__Visualisation__Tool__for__Photon__Mapping.pdf 2015-04-15T12:00:43Z Output 16400677 application/pdf AM true Published to Cronfa 21/06/2019 2015-10-14T00:00:00 true
title A Visualization Tool Used to Develop New Photon Mapping Techniques
spellingShingle A Visualization Tool Used to Develop New Photon Mapping Techniques
Jones, Mark
title_short A Visualization Tool Used to Develop New Photon Mapping Techniques
title_full A Visualization Tool Used to Develop New Photon Mapping Techniques
title_fullStr A Visualization Tool Used to Develop New Photon Mapping Techniques
title_full_unstemmed A Visualization Tool Used to Develop New Photon Mapping Techniques
title_sort A Visualization Tool Used to Develop New Photon Mapping Techniques
author_id_str_mv 2e1030b6e14fc9debd5d5ae7cc335562
author_id_fullname_str_mv 2e1030b6e14fc9debd5d5ae7cc335562_***_Jones, Mark
author Jones, Mark
author2 B. Spencer
M. W. Jones
I. S. Lim
format Journal article
container_title Computer Graphics Forum
container_volume 34
container_issue 1
container_start_page 127
publishDate 2015
institution Swansea University
doi_str_mv 10.1111/cgf.12464
college_str College of Science
hierarchytype
hierarchy_top_id collegeofscience
hierarchy_top_title College of Science
hierarchy_parent_id collegeofscience
hierarchy_parent_title College of Science
department_str Computer Science{{{_:::_}}}College of Science{{{_:::_}}}Computer Science
url http://cs.swansea.ac.uk/%7Ecsmark/PDFS/2014_metavis.pdf
document_store_str 1
active_str 1
researchgroup_str Visual Computing
description We present a visualisation tool aimed specifically at the development and optimisation of photon map denoising methods. Our tool allows the rapid testing of hypotheses and algorithms through the use of parallel coordinates, domain-specific scripting, color mapping and point plots. Interaction is carried out by brushing, adjusting parameters and focus-plus-context, and yields interactive visual feedback and debugging information. We demonstrate the use of the tool to explore high-dimensional photon map data, facilitating the discovery of novel parameter spaces which can be used to dissociate complex caustic illumination. We then show how these new parameterisations may be used to improve upon pre-existing noise removal methods in the context of the photon relaxation framework.
published_date 2015-02-23T14:53:23Z
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score 10.836546

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