@article{b22c8f3cd4e84ff6b0530dc56ced0258,
title = "Safety assessment of robot trajectories for navigation in uncertain and dynamic environments",
abstract = "This paper presents a probabilistic framework for reasoning about the safety of robot trajectories in dynamic and uncertain environments with imperfect information about the future motion of surrounding objects. For safety assessment, the overall collision probability is used to rank candidate trajectories by considering the probability of colliding with known objects as well as the estimated collision probability beyond the planning horizon. In addition, we introduce a safety assessment cost metric, the probabilistic collision cost, which considers the relative speeds and masses of multiple moving objects in which the robot may possibly collide with. The collision probabilities with other objects are estimated by probabilistic reasoning about their future motion trajectories as well as the ability of the robot to avoid them. The results are integrated into a navigation framework that generates and selects trajectories that strive to maximize safety while minimizing the time to reach a goal location. An example implementation of the proposed framework is applied to simulation scenarios, that explores some of the inherent computational tradeoffs.",
keywords = "Motion planning, Robot safety, Safety assessment",
author = "Daniel Althoff and Kuffner, {James J.} and Dirk Wollherr and Martin Buss",
note = "Funding Information: Associate Professor at the Robotics Institute, Carnegie Mellon Univer- sity currently working as a Research Software Engineer at Google, Inc. He received a Ph.D. from the Stan- ford University Dept. of Computer Science Robotics Laboratory in 1999. He spent two years as a Japan Society for the Promotion of Sci- ence (JSPS) Postdoctoral Research Fellow at the University of Tokyo working on software and planning algorithms for humanoid robots. He joined the faculty at Carnegie Mel lon University{\textquoteright}s Robotics Institute in 2002. He has published over 100 technical papers and received the Okawa Foundation Award for Young Researchers in 2007. Funding Information: Acknowledgements The authors gratefully acknowledge partial financial support of this work by the Deutsche Forschungsgemein-schaft (German Research Foundation) within the excellence initiative research cluster Cognition for Technical Systems—CoTeSys (www.cotesys.org), and the EU-STREP project Interactive Urban Robot (IURO, www.iuro-project.eu). Special thanks to Matthias Al-thoff and Georg B{\"a}tz for the inspiring discussions.",
year = "2012",
month = apr,
doi = "10.1007/s10514-011-9257-9",
language = "English",
volume = "32",
pages = "285--302",
journal = "Autonomous Robots",
issn = "0929-5593",
publisher = "Springer Netherlands",
number = "3",
}