Marching cubes: A high resolution 3D surface construction algorithm
SIGGRAPH '87 Proceedings of the 14th annual conference on Computer graphics and interactive techniques
ARCBALL: a user interface for specifying three-dimensional orientation using a mouse
Proceedings of the conference on Graphics interface '92
Decoupled simulation in virtual reality with the MR toolkit
ACM Transactions on Information Systems (TOIS)
The visualization toolkit (2nd ed.): an object-oriented approach to 3D graphics
The visualization toolkit (2nd ed.): an object-oriented approach to 3D graphics
A Tangible User Interface System for CAVE Applicat
VR '06 Proceedings of the IEEE conference on Virtual Reality
A Collaborative Interface for the IllusionHole using a Control-Ring and a Set of Mice
3DUI '06 Proceedings of the 3D User Interfaces
WYSIWYF: exploring and annotating volume data with a tangible handheld device
Proceedings of the SIGCHI Conference on Human Factors in Computing Systems
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The interpretation of results of analysis often requires considerable resources; both hardware and human expertise and time. Many disciplines generate three-dimensional volume datasets that need to be explored to observe structure and trends in key variables. This paper presents a coupled hardware-software approach for aiding data interpretation by cutting the dataset with a plane. The developed device can be held by the user and interactively manipulated to re-orient the cutting plane and observe trends in the data. As a practical application of the device, three-dimensional stress analysis results were explored using the device resulting in an increased efficiency of interaction and interpretation.