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Designing intelligent robots for human-robot teaming in urban search & rescue

 
: Kruijff, Geert-Jan M.; Colas, Francis; Svoboda, Tomás; Diggelen, Jurriaan van; Balmer, Patrick; Pirri, Fiora; Worst, Rainer

Konidaris, G. ; American Association for Artificial Intelligence -AAAI-:
Designing intelligent robots. Reintegrating AI : Papers from the AAAI Spring Symposium; was held March 26-28, 2012 at Stanford University, Stanford, California, USA
Menlo Park: AAAI Press, 2012
ISBN: 978-1-57735-551-9
ISBN: 1-57735-551-2
8 pp.
AAAI Spring Symposium on Designing Intelligent Robots: Reintegrating AI
American Association for Artificial Intelligence (AAAI Spring Symposium) <2012, Stanford/Calif.>
English
Conference Paper
Fraunhofer IAIS ()
Intelligent robots; urban search and rescue; artificial intelligence

Abstract
The paper describes ongoing integrated research on designing intelligent robots that can assist humans in making a situation assessment during Urban Search & Rescue (USAR) missions. These robots (rover, microcopter) are deployed during the early phases of an emergency response. The aim is to explore those areas of the disaster hotzone which are too dangerous or too difficult for a human to enter at that point. This requires the robots to be intelligent in the sense of being capable of various degrees of autonomy in acting and perceiving in the environment. At the same time, their intelligence needs to go beyond mere task-work. Robots and humans are interdependent. Human operators are dependent on these robots to provide information for a situation assessment. And robots are dependent on humans to help them operate (shared control) and perceive (shared assessment) in what are typically highly dynamic, largely unknown environments. Robots and humans need to form a team. The paper describes how various insights from robotics and Artificial Intelligence are combined, to develop new approaches for modeling human robot teaming. These approaches range from new forms of modeling situation awareness (to model distributed acting in dynamic space), human robot interaction (to model communication in teams), flexible planning (to model team coordination and joint action), and cognitive system design (to integrate different forms of functionality in a single system).

: http://publica.fraunhofer.de/documents/N-234156.html