Temporal Potential Function Approach for Path Planning in Dynamic Environments

Temporal Potential Function Approach for Path Planning in Dynamic Environments

4.11 - 1251 ratings - Source

A Dynamic environment is one in which either the obstacles or the goal or both are in motion. In most of the current research, robots attempting to navigate in dynamic environments use reactive systems. Although reactive systems have the advantage of fast execution and low overheads, the tradeoff is in performance in terms of the path optimality. Often, the robot ends up tracking the goal, thus following the path taken by the goal, and deviates from this strategy only to avoid a collision with an obstacle it may encounter. In a path planner, the path from the start to the goal is calculated before the robot sets off. This path has to be recalculated if the goal or the obstacles change positions. In the case of a dynamic environment this happens often. One method to compensate for this is to take the velocity of the goal and obstacles into account when planning the path. So instead of following the goal, the robot can estimate where the best position to reach the goal is and plan a path to that location. In this thesis, we propose such a method for path planning in dynamic environments. The proposed method uses a potential function approach that considers time as a variable when calculating the potential value. This potential value for a particular location and time indicates the probability that a robot will collide with an obstacle, assuming that the robot executes a random walk from that location and that time onwards. The robot plans a path by extrapolating the object's motion using current velocities and by calculating the potential values up to a look-ahead limit that is determined by calculating the minimum path length using connectivity evaluation and then determining the utility of expanding the look-ahead limit beyond the minimum path length. The method is fast, so the path can be re-planned with very little overhead if the initial conditions change at execution time. This thesis will discuss how the potential values are calculated and how a suitable look-ahead limit is decided. Finally the performance of the proposed method is analyzed in a simulated environment.end res = w; end Generate Potential value curves gen_curves.m function gen_curves(rows, cols, density) % %generate potential value curves % rw = gen_random_obs(rows, cols, density, 25); g2x = [2 5:5:45 50:10:100]; g2y(1:16) = 0 ; g1x(1:400)anbsp;...

Title:Temporal Potential Function Approach for Path Planning in Dynamic Environments
Author: Vamsikrishna Gopikrishna
Publisher:ProQuest - 2008

You must register with us as either a Registered User before you can Download this Book. You'll be greeted by a simple sign-up page.

Once you have finished the sign-up process, you will be redirected to your download Book page.

How it works:
  • 1. Register a free 1 month Trial Account.
  • 2. Download as many books as you like (Personal use)
  • 3. Cancel the membership at any time if not satisfied.

Click button below to register and download Ebook
Privacy Policy | Contact | DMCA