Path Planning and Collision Avoidance for a 6-DOF Manipulator : A Comparative Study of Path Planning and Collision Avoidance Algorithms for the Saab Seaeye eM1-7 Electric Manipulator

Ohlander, Hampus, Johnson, David

January 2024

This project investigated the implementation and evaluation of various collision-free path planning algorithms for the Saab Seaeye eM1-7 6-DOF Electric Manipulator (eManip). The primary goal was to enhance the autonomous performance of the eManip by integrating efficient path planning methodologies, ultimately ensuring the avoidance of collisions and manipulator singularities during underwater operations. Key algorithms examined included the Rapidly-exploring Random Trees (RRT) algorithm and its enhanced variants. Through simulation tests in MATLAB and Gazebo, metrics such as planning time, path length, and the number of explored nodes were evaluated. The results highlighted the robustness of Goal-biased and Bidirectional RRT* (Gb-Bd-RRT*), which consistently performed well across various environments. The research also highlighted the correlation between algorithm effectiveness and specific task attributes, emphasizing their adaptability to complex environments. This research contributes valuable insights into the effectiveness of path planning algorithms, informing the selection and integration of viable strategies for 6-DOF robotic manipulators.

Path Planning

Collision Avoidance

6-DOF Manipulator

Rapidly-exploring Random Trees (RRT)

Goal-biased

Bidirectional

Saab Seaeye eM1-7

Underwater Robotics

Autonomous Manipulation

Robot Operating System (ROS)

Sampling-based Algorithms

Configuration Space

Manipulator Singularity

Path Smoothing

Obstacle Avoidance

Electric Manipulator

Robotic Manipulators

Autonomous Performance

Robotics

Robotteknik och automation