Constraints on deformable models: recovering 3D shape and nongrid motion
Artificial Intelligence
A historical and intellectual perspective of the context of human computer interaction
Human-computer interaction
The disputer: A dual paradigm parallel processor for graphics and vision
Parallel Architectures and Computer Vision
Geometric invariance in computer vision
Geometric invariance in computer vision
Intelligent multimedia interfaces
Intelligent multimedia interfaces
Active vision
Three-dimensional computer vision: a geometric viewpoint
Three-dimensional computer vision: a geometric viewpoint
Real-time computer vision
Virtual reality systems
Virtual environments and advanced interface design
Virtual environments and advanced interface design
Virtual objects in the real world
Communications of the ACM
The Method of Normalization to Determine Invariants
IEEE Transactions on Pattern Analysis and Machine Intelligence
Invariant Fitting of Planar Objects by Primitives
IEEE Transactions on Pattern Analysis and Machine Intelligence
Medical Applications of Image Understanding
IEEE Expert: Intelligent Systems and Their Applications
Model based vision as feedback for virtual reality robotics environments
VRAIS '95 Proceedings of the Virtual Reality Annual International Symposium (VRAIS'95)
A vision-based head tracker for fish tank virtual reality-VR without head gear
VRAIS '95 Proceedings of the Virtual Reality Annual International Symposium (VRAIS'95)
DigitEyes: Vision-Based Human Hand Tracking
DigitEyes: Vision-Based Human Hand Tracking
Digital Image Processing (3rd Edition)
Digital Image Processing (3rd Edition)
Locating and extracting the eye in human face images
Pattern Recognition
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As virtual reality evolves towards more natural interfaces, new contact less interaction based on gesture recognition is unfolding. This interaction is supported on geometric, dynamic and cognitive modelling of gestures. As well as other branches of artificial intelligence, computer vision plays an important role in this modelling. The purpose of this paper is to describe how computer vision is helping to develop virtual reality and present some interfaces developed in our laboratory.