Journal
IEEE ROBOTICS & AUTOMATION MAGAZINE
Volume -, Issue -, Pages -Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/MRA.2023.3276265
Keywords
Robots; Sensors; Autonomous aerial vehicles; Grasping; Task analysis; Object detection; Grippers
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This study proposes a fully autonomous pick-and-place scheme in outdoor environments using articulated aerial robots. It develops an articulated robot model with an actively tiltable sensor and designs object detection methods based on the distance between the robot and target object. A comprehensive motion strategy is developed for autonomous object searching, picking, and placing. Experimental results show the successful autonomous brick picking and placing in various outdoor environments.
Picking and placing of objects by aerial robots in fields is an important and challenging task for a range of outdoor activities, including industry and rescue operations. General strategies depend on the magnetic force to the pick object; however, this approach lacks both generality and robustness. Therefore, we focus on an articulated structure to grasp bricking. Another issue in performing pick-and-place tasks in fields is autonomous recognition using onboard sensors. In this article, we present a fully autonomous pick-and-place scheme in outdoor environments using articulated aerial robots. First, an articulated robot model with an actively tiltable sensor is developed to guarantee robustness in both state estimation and object detection. Second, object detection methods are designed according to the distance between the robot and target object. Third, a comprehensive motion strategy is developed to perform an autonomous object searching, picking, and placing sequence. In particular, a visual servoing method for robot position control is also proposed in this motion strategy to improve the robustness while approaching the target. Finally, we present the experimental results of autonomous brick picking and placing by our proposed methods in various outdoor environments, including a real robotics challenge, the 2020 Mohamed Bin Zayed International Robotics Challenge (MBZIRC 2020). To the best of our knowledge, our study represents the first successful attempt at fully autonomous object grasping by an articulated aerial robot in a field.
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