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Human Aware UAS Path Planning in Urban Environments using Nonstationary MDPs

A growing concern with deploying Unmanned Aerial Vehicles (UAVs) in urban environments is potential violation of human privacy, and the backlash this could entail. Therefore, there is a need for UAV path planning algorithms that minimize the likelihood of invading human privacy. Such algorithms would be useful for pipeline and agricultural survey, wildfire monitoring and other missions where surveillance of humans should be avoided. We formulate the problem of human-aware path planning as a nonstationary Markov Decision Process, and provide a novel model-based reinforcement learning solution that leverages Gaussian process clustering. Our algorithm is flexible enough to accommodate changes in human population densities, and is real-time computable, as opposed to competing approaches employing Bayesian nonparametrics. The approach is validated experimentally on a large-scale long duration experiment with both simulated and real UAVs.

    Workshop Paper