Motion planning is the task of finding a continuous, collision free, path for an robot (entity) through a workspace that may contains obstacle, or reporting that no such path exists.

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4answers
948 views

What's a good Robotics Simulator? [closed]

So I'm currently doing some robotics research, and we have a custom built arm in the lab that we would like to simulate. I've done a little googling and wikipedia searching, and there seems to be a ...
5
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4answers
515 views

Algorithm for RC car

I'm looking for an algorithm, and I have no idea where to start! I'm trying to get from point A to point B in a cartesian graph. Movement is restricted to that of a RC car: backward, forward, ...
4
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2answers
834 views

How to avoid that the robot gets trapped in local minimum?

I have some time occupying myself with motion planning for robots, and have for some time wanted to explore the possibility of improving the opportunities as "potential field" method offers. My ...
4
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4answers
306 views

Motion planning without a graph across an infinite plane

An object is positioned at A and wants to move to B. I want to calculate a movement vector there that doesn't move within the distance D of the to-be-avoided points in array C. So if the move vector ...
3
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1answer
1k views

rapid exploring random trees

http://msl.cs.uiuc.edu/rrt/ Can anyone explain how rrt works with simple wording that is easy to understand? I read the description in the site and in wikipedia. What I would like to see, is a short ...
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2answers
208 views

Finding best path given a distance transform

Given a distance transform of a map with obstacles in it, how do I get the least cost path from a start pixel to a goal pixel? The distance transform image has the distance(euclidean) to the nearest ...
1
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2answers
94 views

Is there a way to insert circle with algebraic coordinate into an arrangement?

I am working on a motion planning problem and I'm facing problems with numeric precision. My goal is to divide the two-dimensional vector space of real numbers with segments and circular arcs. The 2D ...
1
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1answer
182 views

Great resources for learning more about path planning?

What are some good resources (books, PDFs, websites) for researching different path planning algorithms? After failing to be able to select a senior project I got talked into one involving path ...
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1answer
67 views

Random Config Generation for RRT

I am writing code for Rapidly exploring trees for robotic arm movement. I have two doubts i) what is the distance metric that I have to use to find the nearest node in the graph? If it is ...
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1answer
816 views

Player/Stage Path Planning

So I have map and config files that represent the world in which my robot is going to be trying to get through. My robot has to get from the top left corner to the bottom right corner of the map ...
0
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2answers
270 views

path planning - multiple destinations

The problem is this: I have a graph G=(V,E). a subgroup of vertices U<=V, and a start vertex s. weight function w for the edges. I need to find the shortest path from 's' that passes through all ...
0
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1answer
55 views

Robot Motion Planning using Delaunay and Dijkstra

I am trying to develop an algorithm based on delaunay triangulation, fermat point, improved dijkstra's algorithm to implement robot motion planning. Currently I have covered delaunay triangulation and ...
0
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0answers
51 views

path planning of mobile robot

I want to design a mobile robot to navigate in unknown environment by using one of path planning algorithm (Artificial potential field) and as known that the algorithm outputs the desired path as a ...
0
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1answer
244 views

Map exploration/path planning for multiple robots (no obstacles)

can anyone lead me to a map exploration/path planning paper/algorithm/website for my problem: We have 3 robots, which shall explore a 2D map, e.g. they drive over the ground while taking photos of ...
0
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0answers
180 views

Finding heuristic and Identifying Traveling Salesman like algorithm (With some changes)

I need a heuristic for the Traveling Salesman Problem with the below changes: • We need to visit only a subset of V (There is given a subset of V that we must visit). V=Cities. • We does not ...