Introduction to Robotics Tutorial 7 Technion, cs department, Introduction to Robotics Winter
Potential Functions 2 1.Write the attraction and repulsion potential functions. Destination Obstacle Center at (L,0) Radius = R
Destination 3 The destination is modeled as an attractive charge. Destination
Obstacle 4 The Obstacle is modeled as a single repulsive charge. Obstacle Center at (L,0) Radius = R
Obstacle and Destination 5
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Potential Functions 7 2.For which α and β the robot will never hit the obstacle? Destination Obstacle Center at (L,0) Radius = R
Potential Functions 8 3.Will the robot always arrive at the destination? 4.From which starting positions the robot will not arrive the destination?
Different Obstacle Modeling 9 The Obstacle is modeled as a single repulsive charge.
Potential Functions 10 5.For which α and β the robot will never hit the obstacle? 6.Will the robot always arrive at the destination? 7.From which starting positions the robot will not arrive the destination? 8.How does changing β effects the resulting path?
Different Obstacle Modeling 11 The Obstacle is modeled as a single repulsive charge: Alternately: Where d* is the distance to the closest point of the obstacle.
Different Obstacle Modeling 12
Another Example 13 Destination