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Obstacle Recognition and Avoidance for UAVs Under Resource-Constrained Environments

Yiming Mao, Ming Chen, Xianglin Wei, Bing Chen

2020IEEE Access17 citationsDOIOpen Access PDF

Abstract

Existing resource-intensive obstacle avoidance techniques are hard to be applied on the small-size Unmanned Aerial Vehicles (UAVs) that have limited sensing and computation capacity. Therefore, it is necessary to develop an obstacle recognition and avoidance scheme which works under resource-constrained environments. To this backdrop, this paper first presents an obstacle recognition model based on monocular vision feature points. Afterwards, an obstacle recognition algorithm is put forward, whose computational complexity is low. Then, an obstacle avoidance method is proposed to regulate the obstacle-avoidance path of a UAV until it arrives its destination. To evaluate the effectiveness of the presented algorithms, we design and implement a simulation platform on Objective Modular Network Testbed in C++ (OMNeT++), and conduct a series of experiments. Experimental results show that the proposed model and algorithms can effectively guide a micro UAV to its destination using only an embedded processor and 0.5kg extra load. Even in poor communication conditions, the UAV can independently avoid obstacles and reach the destination only by acquiring the destination coordinates from the ground station.

Topics & Concepts

Obstacle avoidanceObstacleComputer scienceTestbedModular designCollision avoidanceComputationScheme (mathematics)Resource (disambiguation)Artificial intelligenceFeature (linguistics)Path (computing)Real-time computingComputer visionMobile robotRobotAlgorithmComputer networkComputer securityCollisionOperating systemLawPhilosophyMathematicsMathematical analysisPolitical scienceLinguisticsRobotics and Sensor-Based LocalizationRobotic Path Planning AlgorithmsAdvanced Neural Network Applications
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