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个人简介
The Visualization Research Group at Leeds is looking at three particular areas where our understanding can be enhanced through a visual representation:
Visualization Systems - where we are looking to extend existing visualization systems in four key directions:
collaboration - to allow users at different locations to work together on a visualization
computational steering and problem-solving environments - to link simulation and visualization, for example to provide engineering design environments
Web-based visualization - to allow the specification, creation and delivery of visualizations using Web technologies
Grid-enabled visualization - to allow visualization systems to be integrated into Grid computing environments
Visualization Algorithms - where we are looking at increasing the robustness of algorithms in a number of ways:
incorporating constraints - to ensure visualizations adhere to physical properties, such as positivity
increasing accuracy - to provide improved algorithms in areas such as isosurfacing
understanding errors - to provide indications of errors incurred in creating a visualization and where we are looking to develop new approaches for:
high dimensional datasets - to enable visualization of functions of many variables.
Virtual Environments - where we are focussing on medical applications:
Web-based surgical training - to provide simple, yet realistic, surgical training simulators using Web technology
deformable modelling - to provide realistic yet computationally efficient simulations of soft object behaviour
volume rendering - to support surgeons in the operating theatre by providing 3D visualizations of medical image data
Visualization Systems - where we are looking to extend existing visualization systems in four key directions:
collaboration - to allow users at different locations to work together on a visualization
computational steering and problem-solving environments - to link simulation and visualization, for example to provide engineering design environments
Web-based visualization - to allow the specification, creation and delivery of visualizations using Web technologies
Grid-enabled visualization - to allow visualization systems to be integrated into Grid computing environments
Visualization Algorithms - where we are looking at increasing the robustness of algorithms in a number of ways:
incorporating constraints - to ensure visualizations adhere to physical properties, such as positivity
increasing accuracy - to provide improved algorithms in areas such as isosurfacing
understanding errors - to provide indications of errors incurred in creating a visualization and where we are looking to develop new approaches for:
high dimensional datasets - to enable visualization of functions of many variables.
Virtual Environments - where we are focussing on medical applications:
Web-based surgical training - to provide simple, yet realistic, surgical training simulators using Web technology
deformable modelling - to provide realistic yet computationally efficient simulations of soft object behaviour
volume rendering - to support surgeons in the operating theatre by providing 3D visualizations of medical image data
研究兴趣
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Expanding the Frontiers of Visual Analytics and Visualizationpp.81-109, (2012)
MEDICAL IMAGE COMPUTING AND COMPUTER-ASSISTED INTERVENTION - MICCAI 2009, PT II, PROCEEDINGSno. Pt 2 (2009): 43-50
Encyclopedia of Database Systemspp.337-342, (2009)
eSciencepp.1-7, (2008)
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