Intelligent multi-shot visualization interfaces for dynamic 3D worlds
IUI '99 Proceedings of the 4th international conference on Intelligent user interfaces
Virtual 3D camera composition from frame constraints
MULTIMEDIA '00 Proceedings of the eighth ACM international conference on Multimedia
Nailboards: A Rendering Primitive for Image Caching in Dynamic Scenes
Proceedings of the Eurographics Workshop on Rendering Techniques '97
Artistic Composition for Image Creation
Proceedings of the 12th Eurographics Workshop on Rendering Techniques
Real-Time Cinematography for Games (Game Development Series)
Real-Time Cinematography for Games (Game Development Series)
A Constraint-Based Autonomous 3D Camera System
Constraints
Virtual Camera Composition with Particle Swarm Optimization
SG '08 Proceedings of the 9th international symposium on Smart Graphics
A constraint-based approach to camera path planning
SG'03 Proceedings of the 3rd international conference on Smart graphics
Advanced composition in virtual camera control
SG'11 Proceedings of the 11th international conference on Smart graphics
Efficient composition for virtual camera control
EUROSCA'12 Proceedings of the 11th ACM SIGGRAPH / Eurographics conference on Computer Animation
Efficient composition for virtual camera control
Proceedings of the ACM SIGGRAPH/Eurographics Symposium on Computer Animation
Proceedings of the 4th ACM Multimedia Systems Conference
Bandwidth adaptation for 3D mesh preview streaming
ACM Transactions on Multimedia Computing, Communications, and Applications (TOMCCAP) - Special issue of best papers of ACM MMSys 2013 and ACM NOSSDAV 2013
Hi-index | 0.00 |
Declarative approaches to camera control model inputs as properties on the camera and then rely on constraint-based and/or optimization techniques to compute the camera parameters or paths that best satisfy those properties. To reach acceptable performances, such approaches often (if not always) compute properties satisfaction in an approximate way. Therefore, it is difficult to measure results in terms of accuracy, and also compare approaches that use different approximations. In this paper, we propose a simple language which can be used to express most of the properties proposed in the literature and whose semantics provide a way to accurately measure their satisfaction. The language can be used for several purposes, for example to measure how accurate a specific approach is and to compare two distinct approaches in terms of accuracy.