On active lower limb exoskeletons actuators

2008 5th International Symposium on Mechatronics and Its Applications Pub Date : 2008-05-27 DOI:10.1109/ISMA.2008.4648796

F. Casolo, S. Cinquemani, M. Cocetta

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引用次数: 18

Abstract

Carrying a load increases the metabolic costs of movement: exoskeletons are devices developed primarily to minimize the operatorpsilas energetic contribution for the action. The rise of the exoskeletons research can be set in the second half of the past century. The most important contribution given by these early attempts to develop supporting structures for human use, was to identify and focus the researcherpsilas attention on some key aspects, fundamental for a further implementation of these devices. Among them, the importance of efficient and small supply systems, of precision and control, o simple human interface and of the knowledge of locomotion biomechanics. The aim is a technological approach capable to match the artificial system with the human beings with minimum interactions and maximum synergy. This work deal with the state of art of the projects facing with the development of exoskeletons and active orthoses for the lower limbs. It focuses the actuators problem showing advantages and disadvantages of a variety of technological alternatives. The work is the starting point for a new exoskeleton design.

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主动下肢外骨骼驱动器

负重增加了运动的代谢成本:外骨骼主要是为了减少操作者对运动的能量贡献而开发的。外骨骼研究的兴起可以追溯到上世纪下半叶。这些早期尝试开发供人类使用的支持结构所做出的最重要贡献是确定并将研究人员的注意力集中在一些关键方面，这些方面是进一步实施这些设备的基础。其中，高效和小型供应系统，精度和控制，简单的人机界面和运动生物力学知识的重要性。目标是一种技术方法，能够以最小的交互和最大的协同作用将人工系统与人类相匹配。这项工作涉及到外骨骼和下肢主动矫形器的发展所面临的项目的艺术状态。它侧重于执行器问题，显示各种技术替代方案的优点和缺点。这项工作是一个新的外骨骼设计的起点。

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2008 5th International Symposium on Mechatronics and Its Applications

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