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Robust Enhancement of Depth Images from Kinect Sensor

We propose a new method to fill missing or invalid values in depth images generated from the Kinect depth sensor. To fill the missing depth values, we use a robust least median of squares (LMedS) approach. We apply our method for telepresence …

Kalibrierung und Evaluierung eines mobilen Gazetracking Systems

The Influence of Gravity-Adapted Target Resizing on Direct Augmented Reality Pointing under Simulated Hypergravity

Dynamic Level of Detail for Tiled Large High-Resolution Displays

Calibration of Depth Camera Arrays

Depth cameras are increasingly used for tasks such as 3-D reconstruction, user pose estimation, and human- computer interaction. Depth-camera systems comprising multiple depth sensors require careful calibration. In addition to conventional 2-D …

A Proof-of-Concept Study on the Impact of Artificial Hypergravity on Force-Adapted Target Sizing for Direct Augmented Reality Pointing

The performance of Augmented Reality (AR) direct object selection coded outside of the human egocentric body frame of reference is decreased under short-term altered gravity. Therefore an adequate countermeasure is required. This paper presents the …

How Can Semantic Annotations Support the Identification of Network Similarities?

Supporting an Early Detection of Diabetic Neuropathy by Visual Analytics

Underwater Reconstruction Using Depth Sensors

The Impact of Altered Gravitation on Performance and Workload of Augmented Reality Hand-Eye-Coordination: Inside vs. Outside of Human Body Frame of Reference

We investigated new interface technologies to ease astronaut0s work under altered gravity. By bridging the gap between the physical reality and digital information, Augmented Reality keeps the focus on the task to fulfill. It is important that the …