Keskeiset käsitteet
Simulation is effective in synthesizing path-following control policies for autonomous ground robots.
Tiivistelmä
The study explores the effectiveness of simulation in synthesizing control policies for autonomous ground robots. It discusses the use of a simulator to establish path-following control policies, including PID control, MPC, and neural network-based controllers. The study emphasizes the importance of real-world testing to validate simulation results and highlights the significance of test randomization in ranking control policies. The methodology, experiments, and analysis are detailed, showcasing the correlation between simulation and real-world performance.
I. INTRODUCTION
- Simulation accelerates control policy synthesis.
- Combining simulation with RL and IL yields promising results.
- Real-world testing is crucial for improving simulators.
II. RELATED WORK
- Reality-only, simulation-only, and simulator-to-reality policy design approaches.
- Examples of successful policy designs using different methods.
III. METHODOLOGY
- Use of simulator to verify, tune, and train control policies.
- Introduction of NN-HD and NN-MPC controllers.
- Description of the simulation platform and sensor models.
IV. EXPERIMENTS & ANALYSIS
- Testing control policies in simulation and real-world scenarios.
- Comparison of lateral tracking and heading errors.
- Test randomization approach for ranking control policies.
Tilastot
"The average solving time for the optimization solver used in this work is around 6 ms."
"The average inference time for NN based controller was around 1.8ms."
Lainaukset
"Simulation is effective in synthesizing path-following control policies."
"Real-world testing is crucial for improving simulators."