The role of contextual haptic and visual constraints on object manipulation in virtual environments
Proceedings of the SIGCHI conference on Human Factors in Computing Systems
Integration of measurement tools in medical 3d visualizations
Proceedings of the conference on Visualization '02
Perceiving Spatial Relationships in Computer-Generated Images
IEEE Computer Graphics and Applications
Fast Analysis of Intracranial Aneurysms Based on Interactive Direct Volume Rendering and CTA
MICCAI '98 Proceedings of the First International Conference on Medical Image Computing and Computer-Assisted Intervention
A cognitive systems engineering perspective on the design of mixed reality systems
Proceedings of the 13th Eurpoean conference on Cognitive ergonomics: trust and control in complex socio-technical systems
Fun and usable: augmented reality instructions in a hospital setting
OZCHI '07 Proceedings of the 19th Australasian conference on Computer-Human Interaction: Entertaining User Interfaces
Some usability issues of augmented and mixed reality for e-health applications in the medical domain
USAB'07 Proceedings of the 3rd Human-computer interaction and usability engineering of the Austrian computer society conference on HCI and usability for medicine and health care
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This paper presents a set of Augmented Reality (AR) based interaction techniques for spatial analysis of medical datasets. Computer-aided medical planning tools such as our Virtual Liver Surgery Planning System require precise and intuitive interaction for the quantitative inspection of anatomical and pathological structures. We argue that AR is a superior tool compared to desktop 2D or 3D visualization for performing such analysis, because it allows true direct manipulation of 3D virtual objects in space, while rendering the medical data in the familiar context of the user's own body.