Structured Ecological Cultivation with Autonomous Robots in Indoor Agriculture

Marsela Polic, Antun Ivanovic, Bruno Maric, Barbara Arbanas, Jelena Tabak, M. Orsag
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引用次数: 12

Abstract

A robotic system for indoor organic farming is presented in this paper. The system consists of heterogeneous robot agents with specific abilities, able to execute certain tasks only when working together, namely, an unmanned aerial robot (UAV), unmanned ground robots (UGV), and a compliant multi degree of freedom dual arm manipulator. The compliant manipulator, responsible for the delicate task of plant treatment, is developed within the Soft robotics paradigm. Using the Soft robotics principles, a dexterous human like motion can be achieved through the simultaneous deployment of Soft robot body parts, compliant control, and tactile sensing capabilities of the manipulator. Testing the robots on the described challenging application represents an interesting research opportunity in the rapidly expanding research field of Soft robotics. Coupled with high level mission planning and safe human robot collaboration, this framework has the capacity to change and automate traditional farming techniques.
自主机器人在室内农业中的结构化生态栽培
介绍了一种室内有机农业机器人系统。该系统由具有特定能力的异构机器人agent组成,即无人机(UAV)、无人地面机器人(UGV)和柔性多自由度双臂机械臂。柔性机械手,负责植物处理的微妙任务,是在软机器人范式内开发的。利用软机器人原理,通过同时部署软机器人身体部件、柔性控制和机械臂的触觉感知能力,可以实现灵巧的人形运动。在快速发展的软机器人研究领域中,在描述的具有挑战性的应用中测试机器人代表了一个有趣的研究机会。再加上高水平的任务规划和安全的人机协作,该框架有能力改变传统的农业技术并使其自动化。
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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