An Optimal Strategy for Off-Board Proximal Sensing of a Target: Part 1
Document Type
Conference Proceeding
Publication Date
1-6-2025
Abstract
The time-optimal strategy for a pursuer, endowed with a guided off-board sensor, is found to place the range-limited sensor platform onto a non-maneuvering target. Leveraging optimal control theory, a feedback control strategy is obtained for the pursuer using the indirect optimal control method. The target is assumed to have constant speed and move slower than the off-board sensor and the pursuer. The limited-range off-board sensor is assumed to be faster than the pursuer and the target. The pursuer is assumed to have unlimited range and is faster than the target but slower than the off-board sensor platform. All agents' communication, location, and heading are assumed known by all; the scenario assumes communication between the pursuer and off-board sensor is ideal. This work presents how the optimal control approach can be leveraged as well as highlighted in example simulations and an accompanying discussion of those results.
Source Publication
AIAA SCITECH 2025 Forum
Recommended Citation
Weintraub, I. E., Von Moll, A. L., Hansen, A., & Zollars, M. D. (2025, January 6). An Optimal Strategy for Off-Board Proximal Sensing of a Target: Part 1. AIAA SCITECH 2025 Forum. AIAA SCITECH 2025 Forum, Orlando, FL. https://doi.org/10.2514/6.2025-1349
Comments
Conference Session: Multi-Agent Control and Coordination I
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