Grunnleggende konsepter
Formulating optimal motion planning for Dubins-Laser system.
Sammendrag
The content introduces a novel planar motion planning problem for a Dubins-Laser system, focusing on steering the system to target in minimum time. It discusses applications of UAVs and cooperative agents, formulates joint motion planning for UAV with laser, characterizes optimal trajectory properties, and provides numerical insights. The analysis includes necessary conditions, characterization of trajectories, and solution procedures.
I. Introduction:
- Accelerated demand for UAVs in various applications.
- Importance of cooperative heterogeneous agents.
II. Problem Description:
- Formulation of optimal control problem for Dubins-Laser system.
- Kinematic equations describing the motion.
III. Necessary Conditions:
- Application of Pontryagin maximum principle to characterize optimal control.
IV. Characterization of Optimal Trajectory:
- Establishing minimum time trajectory properties.
V. Solution for Optimal Trajectory:
- Parameterization and solution procedures for optimal trajectories.
Statistikk
From an arbitrary initial position and orientation, the objective is to steer the system so that a given static target is within the range of the laser and oriented at it in minimum time.
The number of candidate trajectories can be at most 16.