自主多感官饮酒机器人助手

F. Goldau, Tejas Kumar Shastha, Maria Kyrarini, A. Gräser
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引用次数: 22

摘要

辅助机器人有潜力帮助残疾人进行日常生活活动。饮酒任务具有很高的优先级,需要护理人员的持续协助才能定期执行。由于四肢瘫痪等丧失行为能力的残疾,受影响的人无法使用传统的控制界面,如操纵杆。本文提出了一种机器人解决方案,可以使用智能杯子实现独立的,无吸管的饮用,并且用户身上没有物理附加元素。介绍了系统的硬件和软件组成,并描述了总体控制方案。杯子接近嘴利用基于头部姿势估计的用户友好和基于视觉的机器人控制。一旦建立了接触,用户就可以通过倾斜带有力传感器控制装置的杯子来喝水。已经进行了两项实验研究,参与者(大多数是健全的,一个是四肢瘫痪的)可以分别体验杯子的非接触式方法和基于接触的序列。初步结果显示,用户接受率高,积极反馈一致。内部数据的评估显示了安全关键组件的高可靠性,测试组认为该系统直观且易于使用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Autonomous Multi-Sensory Robotic Assistant for a Drinking Task
Assistive robots have the potential to support people with disabilities in their Activities of Daily Life. The drinking task has a high priority and requires constant assistance by caregivers to be executed regularly. Due to incapacitating disabilities such as tetraplegia, which is the paralysis of all limbs, affected people cannot use classic control interfaces such as joysticks. This paper presents a robotic solution to enable independent, straw-less drinking using a smart cup and no physically attached elements on the user. The system's hardware and software components are presented and the overarching control scheme described. The cup approaches the mouth utilising a user-friendly and vision-based robot control based on head pose estimation. Once contact has been established, the user can drink by tilting the cup with a force sensor-based control setup. Two experimental studies have been conducted, where the participants (mostly able-bodied and one tetraplegic), could separately experience the cup’s contactless approach and the contact-based sequence. First results show a high user acceptance rate and consistent positive feedback. The evaluation of internal data showed a high reliability of the safety-critical components with the test groups perceiving the system as intuitive and easy to use.
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