High-speed visual estimation using preattentive processing
ACM Transactions on Computer-Human Interaction (TOCHI)
Visualizing multivalued data from 2D incompressible flows using concepts from painting
VIS '99 Proceedings of the conference on Visualization '99: celebrating ten years
Information visualization: perception for design
Information visualization: perception for design
Using shape to visualize multivariate data
Proceedings of the 1999 workshop on new paradigms in information visualization and manipulation in conjunction with the eighth ACM internation conference on Information and knowledge management
Distributed design review in virtual environments
Proceedings of the third international conference on Collaborative virtual environments
Pen-and-Ink rendering in volume visualisation
Proceedings of the conference on Visualization '00
Non-Photorealistic Rendering
Adaptive Collaboration for Wired and Wireless Platforms
IEEE Internet Computing
Enhancing Transparent Skin Surfaces with Ridge and Valley Lines
VIS '95 Proceedings of the 6th conference on Visualization '95
IJCAI'01 Proceedings of the 17th international joint conference on Artificial intelligence - Volume 1
REV '07 Proceedings of the Second International Workshop on Requirements Engineering Visualization
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We report our experiences with application of the optical art techniques of Victor Vasarely and Bridget Riley to visualization of height field and vector field data. The bold use of color and simple form in Op Art engages the preattentive processing ability of the human visual system, facilitating a nearly instantaneous perception of image properties without the need for extended scrutiny of component parts. A software system called Op-Glyph was constructed to illustrate the Op Art method for data visualization, providing a user with extensive control over a visual representation's primitives, including shape, size, and color. Initial results suggest that this glyph-based approach to data visualization may be a viable alternative or complement to more complex representation schemes, particularly in situations where there are limited processing or graphical capabilities, such as with PDAs.