Temporal-Logic-Constrained Hybrid Reinforcement Learning to Perform Optimal Aerial Monitoring with Delivery Drones

In this paper, we consider a package delivery drone that is desired to simultaneously perform aerial monitoring as a secondary mission. To integrate this secondary mission, we utilize a reward function representing the value of information gathered via aerial monitoring. We use time window temporal...

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Bibliographic Details
Main Authors: Asarkaya, Ahmet Semi, Aksaray, Derya, Yazicioglu, Yasin
Format: Conference Proceeding
Language:English
Subjects:
Markov processes
Probabilistic logic
Reinforcement learning
Routing
Simulation
Task analysis
Vehicle dynamics
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Summary:In this paper, we consider a package delivery drone that is desired to simultaneously perform aerial monitoring as a secondary mission. To integrate this secondary mission, we utilize a reward function representing the value of information gathered via aerial monitoring. We use time window temporal logic (TWTL) specifications to define the pickup and delivery tasks while utilizing reinforcement learning (RL) to maximize the expected sum of rewards. The high-level decision-making of the drone is modeled as a Markov decision process (MDP). In this regard, we extend the previous work where a model-free RL algorithm was used to solve this optimization problem. We propose a modified Dyna-Q algorithm to address the shortage of online samples. We provide extensive simulation results to compare the performance of the model-free and hybrid RL algorithms in this application and investigate the effect of the different system parameters on the overall performance.
ISSN:2575-7296
DOI:10.1109/ICUAS51884.2021.9476694