Gesture-speech based HMI for a rehabilitation robot

Proceedings of SOUTHEASTCON '96 Pub Date : 1996-04-11 DOI:10.1109/SECON.1996.510021

Shoupu Chen, Z. Kazi, M. Beitler, M. Salganicoff, D. Chester, R. Foulds

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引用次数: 10

Abstract

One of the most challenging problems in rehabilitation robotics is the design of an efficient human-machine interface (HMI) allowing the user with a disability considerable freedom and flexibility. A multimodal user direction approach combining command and control methods is a very promising way to achieve this goal. This multimodal design is motivated by the idea of minimizing the user's burden of operating a robot manipulator while utilizing the user's intelligence and available mobilities. With this design, the user with a physical disability simply uses gesture (pointing with a laser pointer) to indicate a location or a desired object and uses speech to activate the system. Recognition of the spoken input is also used to supplant the need for general purpose object recognition between different objects and to perform the critical function of disambiguation. The robot system is designed to operate in an unstructured environment containing objects that are reasonably predictable. A novel reactive planning mechanism, of which the user is an active integral component, in conjunction with a stereo-vision system and an object-oriented knowledge base, provides the robot system with the 3D information of the surrounding world as well as the motion strategies.

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基于手势语音的康复机器人人机界面

康复机器人中最具挑战性的问题之一是高效人机界面(HMI)的设计，使残疾用户具有相当大的自由和灵活性。一种结合命令和控制的多模态用户方向方法是实现这一目标的一种很有前途的方法。这种多模式设计的动机是最小化用户操作机器人机械手的负担，同时利用用户的智能和可用的机动性。在这种设计中，身体残疾的用户只需使用手势(用激光笔指向)来指示位置或所需的对象，并使用语音来激活系统。语音输入的识别也用于取代对不同对象之间的通用对象识别的需要，并执行消歧的关键功能。机器人系统被设计用于在包含合理可预测对象的非结构化环境中运行。一种以用户为主动组成部分的新型反应性规划机制，结合立体视觉系统和面向对象知识库，为机器人系统提供了周围世界的三维信息和运动策略。

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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Proceedings of SOUTHEASTCON '96

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