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This project was done as a part of Mobile Robotics course under Prof. Madhava Krishna. This is a Matlab code with main.m as the file which would simulate everything on running.

Main parts of the code are :

Moving a robot from start to goal, using a novel method of curve fitting using Beizer curves. The basis used by beizer curves are Bernstein Polynomials.
For a non holonomic robot y=x*tan(theta). The method is sub optimal as it calculates x and theta in terms of weighted Bernstein polynomials and then uses them to get the equation of y.
The last part of the project was to traverse a robot from start to goal in the presence of static obstacles. The space was modeled using visibility graphs and a shortest path from start to goal was calculated. On this path a Beizer curve was fitted, which subsequently became the path which the robot followed.
Lastly, a turtlebot was simulated, using ROS libraries, for the same and was found to travel smoothly without any jerks from start to goal.

Name		Name	Last commit message	Last commit date
Latest commit History 3 Commits
README.md		README.md
bernstein_path.m		bernstein_path.m
calculateAngle.m		calculateAngle.m
crossProduct.m		crossProduct.m
distance.m		distance.m
draw.m		draw.m
drawLine.m		drawLine.m
equalVertices.m		equalVertices.m
get_berns_diff.m		get_berns_diff.m
get_coeff.m		get_coeff.m
get_integral.m		get_integral.m
isLineSegmentsIntersect.m		isLineSegmentsIntersect.m
main.m		main.m
smallest_edge_visiblity_graph.m		smallest_edge_visiblity_graph.m
subtractVertices.m		subtractVertices.m
testcase.png		testcase.png

MehaKaushik/BernsteinPolynomialBasedPathOptimization

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