The general utility of a neuroprosthetic device under direct cortical control

机译：直接在皮层控制下的神经修复装置的一般用途

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We have described an adaptive signal processing method that allows fine graded control of a cursor in three-dimensions from cortical signals. Here we describe application of the same signal processing method to direct cortical control of a robotic arm for a variety of tasks. Our subject was extensively trained in controlling a computer cursor in a 3D virtual environment. We applied the mapping between cortical activity and cursor motion to endpoint control of a robotic arm. This algorithm was refined further as the animal continued to make 3D point-to-point movements of the brain-controlled robot. The animal then used the cortically-controlled robot to retrieve food placed at arbitrary locations within the workspace and deliver the food to a hopper. Finally, the animal learned to use the cortically-controlled robot to deliver food directly to its mouth.

机译：我们已经描述了一种自适应信号处理方法，该方法允许对来自皮质信号的三维游标进行精细分级控制。在这里，我们描述了相同信号处理方法在直接控制各种任务的机械手臂的皮质控制中的应用。我们的主题在3D虚拟环境中控制计算机光标方面接受了广泛的培训。我们将皮层活动和光标运动之间的映射应用于机械臂的端点控制。随着动物继续进行脑控制机器人的3D点对点运动，该算法得到了进一步完善。然后，动物使用皮质控制的机器人取回放置在工作空间内任意位置的食物，并将食物输送到料斗。最终，动物学会了使用皮质控制的机器人将食物直接输送到其嘴中。

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《Engineering in Medicine and Biology Society, 2003. Proceedings of the 25th Annual International Conference of the IEEE》|2003年|p.2043-2046|共4页
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Helms Tillery; S.I.; Taylor; D.M.; Schwartz; A.B.;
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中图分类无线电电子学、电信技术;
关键词
prosthetics; robots; neurophysiology; adaptive signal processing; brain; neuroprosthetic device; direct cortical control; adaptive signal processing; robotic arm; cortical activity;

机译：假肢;机器人;神经生理学;自适应信号处理;大脑;神经假肢设备;直接皮层控制;自适应信号处理;机器人臂;皮层活动;

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1. Bidirectional Telemetry Controller for Neuroprosthetic Devices [J] . Neural Systems and Rehabilitation Engineering, IEEE Transactions on . 2010,第1期

机译：用于神经修复设备的双向遥测控制器
2. Motor cortical activity changes during neuroprosthetic-controlled object interaction [J] . John E. Downey, Lucas Brane, Robert A. Gaunt, Scientific reports. . 2017,第1期

机译：神经修复物控制的对象交互过程中运动皮质活动的变化。
3. Motor cortical activity changes during neuroprosthetic-controlled object interaction [J] . John E. Downey, Lucas Brane, Robert A. Gaunt, Scientific reports. . 2017,第1期

机译：神经修复物控制的对象交互过程中运动皮质活动的变化。
4. A Cluster Analysis of Neuronal Activity in the Dorsal Premotor Cortical Area for Neuroprosthetic Control [C] . N. Ye, A. Roontiva, J. He Annual International Conference of the IEEE Engineering in Medicine and Biology Society . 2008

机译：神经神经治疗背部热球皮质区域神经元活性的聚类分析
5. Prediction of hand path and reach location from neuronal activity in dorsal premotor cortical area for neuroprosthetic control. [D] . Kang, Tao. 2006

机译：通过运动前背皮质区域的神经元活动预测手的路径和到达位置，以进行神经修复。
6. Bidirectional Telemetry Controller for Neuroprosthetic Devices [O] . Vishnu Sharma, Douglas B. McCreery, Martin Han, -1

机译：双向遥测控制器神经修复设备
7. Direct cortical control of 3d neuroprosthetic devices [O] . Dawn M. Taylor, Stephen I. Helms Tillery, Andrew B. Schwartz 2002

机译：直接皮质控制3d神经假体装置

The general utility of a neuroprosthetic device under direct cortical control

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