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Towards More Efficient Navigation for Robots and Humans

Towards More Efficient Navigation for Robots and Humans. David V. Lu and Bill Smart. Traditional Navigation Objectives. Don’t hit things plan paths that avoid obstacles Take the shortest path travel close to obstacles without hitting them Efficient algorithms

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Towards More Efficient Navigation for Robots and Humans

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  1. Towards More Efficient Navigation forRobots and Humans David V. Lu and Bill Smart

  2. Traditional Navigation Objectives Don’t hit things plan paths that avoid obstacles Take the shortest path travel close to obstacles without hitting them Efficient algorithms heuristics and greedy algorithms Don’t scare the humans subjective evaluations of friendliness

  3. Social Navigation People are not obstacles - proxemics - social norms People react to robots - robots navigate around people - people navigate around robots

  4. Our Goal Effective navigation for both robot and human - both get to their goal faster - avoid awkward social moments - understand how to prioritize when needed Contextual navigation - sometimes robot gets priority - sometimes human gets priority - navigation algorithm can adapt on-line

  5. An Example: Passing in a Corridor stops

  6. Can We Improve on This? Social navigation behavior - obey social norms - pass on right - implement using standard costmap Social cues from robot - make eye contact with person - confirm they have been seen

  7. The Experiment Robot and person pass in corridor Two navigation conditions - standard - social Two gaze conditions - none - looks at person

  8. Social Navigation Condition Uses standard navigation system - only manipulates costmap Costmap gradient reflects social norms - slightly cheaper on right side of corridor - linear gradient, not Gaussian as commonly used - contextual and easier to design than social forces Treat humans differently - preserve social distances

  9. Gaze Condition Make “eye contact” with person - look up from navigation - point robot’s head at person’s head - then look away after two seconds

  10. Implementation PR2 using ROS - using new navigation stack - layered costmaps - code available in ROS Hydro release

  11. Experiment 2x2 design N = 30 180 individual trials 3 discarded due to failures

  12. Results: Social Navigation Helps

  13. Results: Social Navigation Helps Signaling distance is higher - human interprets robot’s intent earlier - both get out of the way before they meet Robot and human are both faster - neither needs to slow down Hypotheses - faster with social navigation - faster with gaze cues

  14. Results: Gaze Doesn’t Help People misinterpreted eye contact - thought that robot as initiating an explicit interaction - they stopped and waited for it to interact - sometimes seemed confused when it didn’t Might be novelty effect - subjects knew they were in an HRI experiment - were probably expecting an “interaction” - might not think of passing in corridor as interaction

  15. Final Thoughts Robot behavior changes people’s behavior - not always in the ways you predict in advance Social navigation makes navigation better - for the combined human-robot system - often for both individually Interpretation of gaze is a subtle thing - people react based on context - context is also a subtle thing

  16. Questions David Lu davidlu@wustl.edu Bill Smart bill.smart@oregonstate.edu

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