A hardware-in-the-loop test rig for aerial manipulation

2013 International Conference on Unmanned Aircraft Systems (ICUAS) Pub Date : 2013-05-28 DOI:10.1109/ICUAS.2013.6564785

C. Korpela, M. Orsag, Youngbum Jun, Pareshkumar Brahmbhatt, P. Oh

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引用次数: 3

Abstract

A hardware-in-the-loop test rig is presented to bridge the gap between basic aerial manipulation research and the ability of flying robots to perform tasks such as door opening, bridge repair, agriculture care, and other applications requiring interaction with the environment. Unmanned aerial vehicles have speed and mobility advantages over ground vehicles and can operate in 3-dimensional workspaces. In particular, the usefulness of these capabilities is highlighted in areas where ground robots cannot reach or terrains they are unable to navigate. However, most UAVs operating in nearearth or indoor environments still do not have the payload capabilities to support multi-degree of freedom manipulators. We present a rotorcraft emulation environment using a 7 degree of freedom manipulator. Since UAVs require significant setup time and to avoid potential crashes, our test and evaluation environment provides repeatable experiments and captures reactionary forces experienced during ground interaction. Our preliminary results indicate that we can accurately model, emulate, and control our aircraft-manipulator system during both arm actuation and interacting with target objects.

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用于空中操纵的硬件在环测试平台

提出了一种硬件在环测试平台，以弥合基本的空中操纵研究与飞行机器人执行任务的能力之间的差距，例如开门，桥梁维修，农业护理和其他需要与环境交互的应用。与地面车辆相比，无人机具有速度和机动性优势，可以在三维工作空间中运行。特别是，在地面机器人无法到达的区域或它们无法导航的地形中，这些功能的有用性得到了强调。然而，大多数在近地或室内环境中运行的无人机仍然不具备支持多自由度机械臂的有效载荷能力。提出了一种采用7自由度机械臂的旋翼机仿真环境。由于无人机需要大量的设置时间，并避免潜在的碰撞，我们的测试和评估环境提供了可重复的实验，并捕获了在地面相互作用过程中经历的反作用力。我们的初步结果表明，我们可以准确地建模，仿真和控制我们的飞机机械臂系统在手臂驱动和与目标物体的交互。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2013 International Conference on Unmanned Aircraft Systems (ICUAS)

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