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Simulation of Multiple, Wheeled Agents using Local Navigation

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Other simulation work in traffic does not take into account the reciprocal behavior in cars. ... Reciprocal Velocity Obstacles (RVO) (Berg, Lin, Manocha) ... – PowerPoint PPT presentation

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Title: Simulation of Multiple, Wheeled Agents using Local Navigation


1
Simulation of Multiple, Wheeled Agents using
Local Navigation
  • By David Wilkie, Tim Johnson, Yu-Hsien Su

2
Introduction
  • We plan on adding car-like motion constraints to
    the Reciprocal Velocity Obstacle (RVO)
    formulation.
  • Can simulate large numbers of agents
  • Currently in RVO, agents can move freely in 2D.
  • However, wheeled agents are subject to kinematic
    constraints and minimum turning radius.
  • We will apply RVO with these new constraints to
    the problem of traffic simulation.

3
Introduction (cont)
  • Many previous simulations of traffic relied on
    constraining the motion of cars to predefined
    lanes.
  • These simulations cannot cope with unruly
    intersections or unanticipated agent actions.
  • We propose to apply an agent-based formulation to
    these scenarios.
  • Other simulation work in traffic does not take
    into account the reciprocal behavior in cars.
  • We account for this by building off of the
    reciprocal velocity obstacle formulation. (Berg,
    Lin, Manocha)?

4
Motivation
  • Create visually realistic simulations of noisy,
    real world traffic.

5
Motivation (cont)
  • Model accurately the movement capabilities of
    wheeled robots within a multi-agent local
    navigation framework.

6
Motivation (cont)
  • Create a simulation framework that could be
    applied to traffic simulations with heterogeneous
    agents moving without strict constraints of lanes
    and traffic rules.

7
Prior Art
  • General Traffic Simulation
  • Microscopic Traffic Simulation
  • Follow-the-leader model (Reuschel Pipes)
  • Cellular automata (Nagel Schadschneider)
  • Master equation
  • Macroscopic Traffic Simulation
  • Lighthill and Whitham model (Lighthill Whitham)

8
Prior Art (cont)
  • Traffic Simulation Focusing on Intersections
  • Cellular Automata (Jin, Zheng, Li)
  • Navigation Algorithms
  • Velocity Obstacles (VO) (Fiorini, Shiller)
  • Reciprocal Velocity Obstacles (RVO) (Berg, Lin,
    Manocha)
  • Nonlinear Reciprocal Velocity Obstacles (NRVO)

9
Goal of Project
  • Traffic simulator
  • Focus on busy intersections
  • Agent-based
  • Integrate decision model for cars
  • Complete freedom (subject to constraints) in 2D
    plane
  • http//www.youtube.com/watch?vPySM8dGaNLo

10
Novelty
  • Integration of non-holonomic constraints into RVO
  • Agent-based inference of reciprocity
  • How much effort will agent B make to avoid agent
    A?
  • Model roads as fully-continuous, 2 dimensional
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