Noth, Sebastian; Edelbrunner, Johann; Iossifidis, Ioannis A Versatile Simulated Reality Framework: From Embedded Components to ADAS Proceedings Article In: International Conference on Pervasive and Embedded and Communication Systems, 2012, PECCS2012, 2012. BibTeX | Schlagwörter: Autonomous robotics, Machine Learning, simulated reality, Simulation, virtual reality Noth, Sebastian; Iossifidis, Ioannis Simulated reality environment for development and assessment of cognitive robotic systems Proceedings Article In: Proc. IEEE/RSJ International Conference on Robotics and Biomimetics (RoBio2011), 2011. Abstract | BibTeX | Schlagwörter: Autonomous robotics, Machine Learning, Simulation, virtual reality Noth, S; Iossifidis, Ioannis Benefits of ego motion feedback for interactive experiments in virtual reality scenarios Konferenz BC11 : Computational Neuroscience $backslash$& Neurotechnology Bernstein Conference $backslash$& Neurex Annual Meeting 2011, 2011. BibTeX | Schlagwörter: Autonomous robotics, Machine Learning, simulated reality, Simulation, virtual reality Noth, Sebastian; Schrowangen, Eva; Iossifidis, Ioannis Using ego motion feedback to improve the immersion in virtual reality environments Proceedings Article In: ISR / ROBOTIK 2010, Munich, Germany, 2010. Abstract | BibTeX | Schlagwörter: {Autonomous Robotics, head tracking, Simulation, virtual reality}2012
@inproceedings{Noth2012b,
title = {A Versatile Simulated Reality Framework: From Embedded Components to ADAS},
author = {Sebastian Noth and Johann Edelbrunner and Ioannis Iossifidis},
year = {2012},
date = {2012-01-01},
booktitle = {International Conference on Pervasive and Embedded and Communication Systems, 2012, PECCS2012},
keywords = {Autonomous robotics, Machine Learning, simulated reality, Simulation, virtual reality},
pubstate = {published},
tppubtype = {inproceedings}
}
2011
@inproceedings{Noth2011,
title = {Simulated reality environment for development and assessment of cognitive robotic systems},
author = {Sebastian Noth and Ioannis Iossifidis},
year = {2011},
date = {2011-01-01},
urldate = {2011-01-01},
booktitle = {Proc. IEEE/RSJ International Conference on Robotics and Biomimetics (RoBio2011)},
abstract = {Simulated reality environment incorporating humans and physically plausible behaving robots, providing natural interaction channels, with the option to link simulator to real perception and motion, is gaining importance for the development of cognitive, intuitive interacting and collaborating robotic systems.
In the present work we introduce a head tracking system which is utilized to incorporate human ego motion in simulated environment improving immersion in the context of human-robot collaborative tasks.},
keywords = {Autonomous robotics, Machine Learning, Simulation, virtual reality},
pubstate = {published},
tppubtype = {inproceedings}
}
In the present work we introduce a head tracking system which is utilized to incorporate human ego motion in simulated environment improving immersion in the context of human-robot collaborative tasks.@conference{Noth2011a,
title = {Benefits of ego motion feedback for interactive experiments in virtual reality scenarios},
author = {S Noth and Ioannis Iossifidis},
year = {2011},
date = {2011-01-01},
urldate = {2011-01-01},
booktitle = {BC11 : Computational Neuroscience $backslash$& Neurotechnology Bernstein Conference $backslash$& Neurex Annual Meeting 2011},
keywords = {Autonomous robotics, Machine Learning, simulated reality, Simulation, virtual reality},
pubstate = {published},
tppubtype = {conference}
}
2010
@inproceedings{Noth2010,
title = {Using ego motion feedback to improve the immersion in virtual reality environments},
author = {Sebastian Noth and Eva Schrowangen and Ioannis Iossifidis},
year = {2010},
date = {2010-01-01},
booktitle = {ISR / ROBOTIK 2010},
address = {Munich, Germany},
abstract = {To study driver behavior we set up a lab with fixed base driving simulators. In order to compensate for the lack of physical feedback in this scenario, we aimed for another means of increasing the realism of our system. In the following, we propose an efficient method of head tracking and its integration in our driving simulation. Furthermore, we illuminate why this is a promising boost of the subjects immersion in the virtual world. Our idea for increasing the feeling of immersion is to give the subject feedback on head movements relative to the screen. A real driver sometimes moves his head in order to see something better or to look behind an occluding object. In addition to these intentional movements, a study conducted by Zirkovitz and Harris has revealed that drivers involuntarily tilt their heads when they go around corners in order to maximize the use of visual information available in the scene. Our system reflects the visual changes of any head movement and hence gives feedback on both involuntary and intentional motion. If, for example, subjects move to the left, they will see more from the right-hand side of the scene. If, on the other hand, they move upwards, a larger fraction of the engine hood will be visible. The same holds for the rear view mirror.},
keywords = {{Autonomous Robotics, head tracking, Simulation, virtual reality}},
pubstate = {published},
tppubtype = {inproceedings}
}