Główne pojęcia
REDEFINED proposes a novel real-time motion planning algorithm using neural networks for safe trajectory design.
Streszczenie
The article introduces REDEFINED, a receding-horizon motion planning algorithm that leverages neural networks for safe trajectory design in complex environments. It addresses challenges in real-time planning and collision avoidance, outperforming state-of-the-art methods. The content covers theoretical formulations, zonotope representations, exact signed distance computation, neural network implementation, and online operation details.
- Introduction to Autonomous Vehicles
- Autonomous vehicles aim to reduce accidents and collisions.
- Real-time trajectory planning is crucial for safe navigation.
- Challenges include dynamic obstacles and receding-horizon planning.
- Offline Reachability Analysis
- Zonotope-based reachable sets approximate vehicle behavior.
- Overcoming challenges of nonlinear dynamics in trajectory design.
- Simplifying dynamics and pre-specifying maneuvers for safety.
- Exact Signed Distance Computation
- Theorem on computing signed distance between zonotopes exactly.
- Neural network architecture using ReLU functions for distance calculation.
- Closed-form expression for signed distance between collections of zonotopes.
- Online Operation Algorithm
- Algorithm detailing the online planning process of REDEFINED.
- Sensing obstacles, optimizing trajectories, and predicting vehicle states.
- Ensuring not-at-fault behavior through iterative planning iterations.
- Experimental Setup
- Implementation details using PyTorch and IPOPT for optimization.
- Simulation environment with highway driving scenarios and moving obstacles.
- Batched optimization problem formulation for efficient trajectory synthesis.
- Results Comparison
- Mean constraint evaluation time comparison between REFINE and REDEFINED.
- Evaluation of constraint speed and gradient computation efficiency.
Statystyki
REDEFINED uses offline reachability analysis to compute zonotope-based reachable sets that overapproximate the motion of the ego vehicle.
Cytaty
"Generating receding-horizon motion trajectories for autonomous vehicles in real-time while also providing safety guarantees is challenging."
"REDEFINED proposes a novel real-time motion planning algorithm named Reachability-based Trajectory Design via Exact Formulation of Implicit Neural Signed Distance Functions."