在操作环境中使用多模式交互提高取放性能

IF 1.9 4区 计算机科学 Q3 ENGINEERING, INDUSTRIAL
Xinwei Guo, Yang Chen
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引用次数: 0

摘要

目前,眼对手RGB-D相机获得的视觉和深度信息可以应用于机器人操作工作空间的三维环境重建。重建的三维空间为机器人和人类提供了一个对称、平等的观察视角,这可以被认为是一个数字双胞胎(DT)环境。尽管人工智能(AI)技术在已知环境中具有较高的机器人操作性能,但本研究的目的是提高机器人在物理工作空间中的技能。设计/方法/方法提出了一种多模态交互框架。结合基于图像的快速目标分割技术,从眼手相机对机器人操作环境进行三维重建,在不损失精度的前提下加快了三维DT环境的生成。多模态交互界面集成到DT环境中。独创性/价值支持用户在DT环境中同时使用语音、鼠标和键盘操作虚拟对象。记录人在三维DT虚拟空间中的操作,为机器人实际操作提供线索。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Enhance pick-and-place performance using multimodal interaction in operation environment
Purpose Currently, the vision and depth information obtained from the eye-to-hand RGB-D camera can apply to the reconstruction of the three-dimensional (3D) environment for a robotic operation workspace. The reconstructed 3D space contributes to a symmetrical and equal observation view for robots and humans, which can be considered a digital twin (DT) environment. The purpose of this study is to enhance the robot skill in the physical workspace, although the artificial intelligence (AI) technique has high performance of the robotic operation in the known environments. Design/methodology/approach A multimodal interaction framework is proposed in DT operation environments. Findings A fast image-based target segmentation technique is combined in the 3D reconstruction of the robotic operation environment from the eye-to-hand camera, thus expediting the 3D DT environment generation without accuracy loss. A multimodal interaction interface is integrated into the DT environment. Originality/value The users are supported to operate the virtual objects in the DT environment using speech, mouse and keyboard simultaneously. The humans’ operations in 3D DT virtual space are recorded, and cues are provided for the robot’s operations in practice.
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来源期刊
CiteScore
4.50
自引率
16.70%
发文量
86
审稿时长
5.7 months
期刊介绍: Industrial Robot publishes peer reviewed research articles, technology reviews and specially commissioned case studies. Each issue includes high quality content covering all aspects of robotic technology, and reflecting the most interesting and strategically important research and development activities from around the world. The journal’s policy of not publishing work that has only been tested in simulation means that only the very best and most practical research articles are included. This ensures that the material that is published has real relevance and value for commercial manufacturing and research organizations. Industrial Robot''s coverage includes, but is not restricted to: Automatic assembly Flexible manufacturing Programming optimisation Simulation and offline programming Service robots Autonomous robots Swarm intelligence Humanoid robots Prosthetics and exoskeletons Machine intelligence Military robots Underwater and aerial robots Cooperative robots Flexible grippers and tactile sensing Robot vision Teleoperation Mobile robots Search and rescue robots Robot welding Collision avoidance Robotic machining Surgical robots Call for Papers 2020 AI for Autonomous Unmanned Systems Agricultural Robot Brain-Computer Interfaces for Human-Robot Interaction Cooperative Robots Robots for Environmental Monitoring Rehabilitation Robots Wearable Robotics/Exoskeletons.
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