Paper WeA5.6
Khanapuri, Eshaan (University of Cincinnati), Sharma, Rajnikant (University of Cincinnati)
Learning-Based Distributed Control for UAVs to Achieve Fully Connected Effect Using Local Information
Scheduled for presentation during the Regular Session "UAS Designs and Technologies" (WeA5), Wednesday, June 22, 2022,
12:10−12:30, Elafiti
2022 International Conference on Unmanned Aircraft Systems (ICUAS), June 21-24, 2022, Dubrovnik, Croatia
This information is tentative and subject to change. Compiled on March 28, 2024
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Keywords Networked Swarms, UAS Applications
Abstract
Centralized controllers are not scalable because they require high computational cost and communication bandwidth (full connectivity). Furthermore, the entire group will also be vulnerable if the centralized agent is under a cyber attack. So, the need for distributed controllers becomes a necessity. However, finding efficient distributed controllers is challenging. Hence the primary goal of this work is to learn controllers that emulate centralized controllers but only use local information. We use SVM- regression, Gaussian process regression, and neural networks to learn the centralized controllers applied to two problems, a one-dimensional aerial platooning and synchronized convergence of multiple UAVs onto a stationary target. We discuss different learning models, i.e., single and unique learning models. Also, we investigate two types of learning-based control approaches, Full Learning Control (FLC) and Partial Learning Control (PLC). Further, from simulations, we show the effectiveness of the proposed approach to these problems.
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