Design of a Dexterous Robotic Arm Manipulator Using Hybrid BCI

Volume 5: Biomedical and Biotechnology Pub Date : 2020-11-16 DOI:10.1115/IMECE2020-23509

Daniel A. Medina Portilla, V. Nandikolla

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Abstract

The paper describes the design of a hybrid Brain Computer Interface (BCI) system that provides control commands to manipulate a robotic arm. The goal is to facilitate BCI controlled real-time robotic applications by using a semi-autonomous operation mode that accepts multiple commands. Simple tasks, like moving forward or turning, are executed based on a single BCI command while more complicated tasks, like grabbing or pushing an object are automated once the task is selected. The robotic arm vision system uses an Intel RealSense D435 camera for image and depth perception where a point cloud generates an interface for the user to select an object. The user selects an object to manipulate, which identifies the goal position and location. After the location and object is determined, the software interface moves the robotic arm to have the selected object in the robotic arms’ workspace. The current robotic arm design utilizes an open bionics Brunel dexterous hand as the end effector which allows for human-like hand actions. A simulation platform is developed to verify the effect of the entire system of a dexterous robotic arm on a mobile platform. The system design and results using a hybrid BCI system is demonstrated.

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基于混合BCI的灵巧机械臂机械臂设计

本文介绍了一种混合脑机接口(BCI)系统的设计，该系统提供控制命令来操纵机械臂。目标是通过使用接受多个命令的半自主操作模式来促进BCI控制的实时机器人应用。简单的任务，如向前移动或转弯，是基于单个BCI命令执行的，而更复杂的任务，如抓取或推动物体，一旦选择了任务，就会自动执行。机械臂视觉系统使用英特尔RealSense D435相机进行图像和深度感知，其中点云生成用户选择对象的界面。用户选择要操作的对象，该对象标识目标位置和位置。确定位置和目标后，软件界面移动机械臂，使所选目标在机械臂的工作空间中。目前的机械臂设计采用开放式仿生学布鲁内尔灵巧手作为末端执行器，实现仿人的手部动作。为了验证灵巧机械臂整个系统在移动平台上的效果，建立了仿真平台。介绍了混合BCI系统的系统设计和结果。

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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Volume 5: Biomedical and Biotechnology

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