Abstract
One of the main issues in robotics systems is planning and tracking a safe path in diverse environments.
This paper addresses an optimal methodology for generating the desired path and thereafter forces the
mobile robot to follow the designed reference path. The proposed technique has the potential to tackle the
inherent challenges and intricacies of the environment, enabling the robot to navigate both static and dynamic
workspaces. Several simulations are exploited to verify the captured theoretical results. Three cases were
examined in a static environment, achieving average performance metrics for reference signals in the X- and Y-directions, and heading tracking of 99.62%, 99.64%, and 95.08%, respectively. For the dynamic environment,
two cases were studied, with average performance in following the Y-direction and heading angle recorded
as 97.58% and 86.79%, respectively. Simulation results show that the controller calculated the optimal signal
with an average computational time of 7 ms per iteration for static environments and 21.3 ms per iteration
for dynamic environments.
This paper addresses an optimal methodology for generating the desired path and thereafter forces the
mobile robot to follow the designed reference path. The proposed technique has the potential to tackle the
inherent challenges and intricacies of the environment, enabling the robot to navigate both static and dynamic
workspaces. Several simulations are exploited to verify the captured theoretical results. Three cases were
examined in a static environment, achieving average performance metrics for reference signals in the X- and Y-directions, and heading tracking of 99.62%, 99.64%, and 95.08%, respectively. For the dynamic environment,
two cases were studied, with average performance in following the Y-direction and heading angle recorded
as 97.58% and 86.79%, respectively. Simulation results show that the controller calculated the optimal signal
with an average computational time of 7 ms per iteration for static environments and 21.3 ms per iteration
for dynamic environments.
| Original language | English |
|---|---|
| Article number | 104592 |
| Pages (from-to) | 1-13 |
| Number of pages | 13 |
| Journal | Robotics and Autonomous Systems |
| Volume | 172 |
| DOIs | |
| Publication status | Published - Feb 2024 |
| MoE publication type | A1 Journal article-refereed |
Keywords
- Mobile robot
- Optimal methodology
- Path planning
- Path tracking