An Open-Source Soft Robotic Platform for Autonomous Aerial Manipulation in the Wild

arXiv - EE - Systems and Control Pub Date : 2024-09-11 DOI:arxiv-2409.07662

Erik Bauer, Marc Blöchlinger, Pascal Strauch, Arman Raayatsanati, Curdin Cavelti, Robert K. Katzschmann

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Abstract

Aerial manipulation combines the versatility and speed of flying platforms with the functional capabilities of mobile manipulation, which presents significant challenges due to the need for precise localization and control. Traditionally, researchers have relied on offboard perception systems, which are limited to expensive and impractical specially equipped indoor environments. In this work, we introduce a novel platform for autonomous aerial manipulation that exclusively utilizes onboard perception systems. Our platform can perform aerial manipulation in various indoor and outdoor environments without depending on external perception systems. Our experimental results demonstrate the platform's ability to autonomously grasp various objects in diverse settings. This advancement significantly improves the scalability and practicality of aerial manipulation applications by eliminating the need for costly tracking solutions. To accelerate future research, we open source our ROS 2 software stack and custom hardware design, making our contributions accessible to the broader research community.

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用于野外自主空中操纵的开源软机器人平台

空中操纵结合了飞行平台的多功能性和速度，以及移动操纵的功能能力，由于需要精确定位和控制，这带来了巨大的挑战。传统上，研究人员一直依赖于机载感知系统，但这些系统仅限于昂贵且不实用的专门装备的室内环境。在这项工作中，我们介绍了一种完全利用机载感知系统的新型自主空中操纵平台。我们的平台可以在各种室内和室外环境中执行空中操纵，而无需依赖外部感知系统。我们的实验结果表明，该平台能够在各种环境中自主抓取各种物体。这一进步大大提高了空中操控应用的可扩展性和实用性，不再需要成本高昂的跟踪解决方案。为了加速未来的研究，我们开源了我们的ROS 2软件栈和定制硬件设计，使我们的贡献能够为更广泛的研究社区所用。

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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arXiv - EE - Systems and Control

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