Navigating Assistance System for Quadcopter with Deep Reinforcement Learning

November 12, 2018 · Declared Dead · 🏛 International Conference on Contemporary Computing

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Authors Tung-Cheng Wu, Shau-Yin Tseng, Chin-Feng Lai, Chia-Yu Ho, Ying-Hsun Lai arXiv ID 1811.04584 Category cs.AI: Artificial Intelligence Cross-listed eess.SY Citations 12 Venue International Conference on Contemporary Computing Last Checked 4 months ago

Abstract

In this paper, we present a deep reinforcement learning method for quadcopter bypassing the obstacle on the flying path. In the past study, the algorithm only controls the forward direction about quadcopter. In this letter, we use two functions to control quadcopter. One is quadcopter navigating function. It is based on calculating coordination point and find the straight path to the goal. The other function is collision avoidance function. It is implemented by deep Q-network model. Both two function will output rotating degree, the agent will combine both output and turn direct. Besides, deep Q-network can also make quadcopter fly up and down to bypass the obstacle and arrive at the goal. Our experimental result shows that the collision rate is 14% after 500 flights. Based on this work, we will train more complex sense and transfer model to the real quadcopter.

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