基于阵列计算的上肢神经假体视觉伺服系统

2021 17th International Workshop on Cellular Nanoscale Networks and their Applications (CNNA) Pub Date : 2021-09-29 DOI:10.1109/CNNA49188.2021.9610783

Attila Fejár, Z. Nagy, J. Benois-Pineau, P. Szolgay, Aymar de Rugy, J. Domenger

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引用次数: 1

摘要

一种用于义肢视觉伺服的硬件软件系统。该假体系统包括玻璃眼动仪和摄像机以及安装在假体上的立体摄像机系统。提出的轻量级架构必须作为可穿戴设备来实现。我们提出了一种包含目标选择和识别的混合解决方案，在玻璃相机视图下，与安装在义肢上的相机进行目标匹配，计算义肢到达目标的深度图。目标选择和目标匹配均采用尺度不变特征变换(SIFT)算法。由于SIFT算法耗时长，因此针对轻量化器件提出了FPGA加速方案。所提出的实现与假肢臂的实时伺服兼容。

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Array computing based system for visual servoing of neuroprosthesis of upper limbs

A hardware-software system implemented for visual servoing of prosthetic arms. The prosthetic system comprises glass worn eye-tracker and video camera and a prosthesis - mounted stereo camera system. The proposed light-weight architecture has to be implemented as a wearable device. We propose a hybrid solution which contains object selection and recognition, in glass camera view, object matching to the prosthesis-mounted camera to compute depth map for object reaching by the prosthetic arm. The object selection and object matching both use the Scale Invariant Feature Transform (SIFT) algorithm. The SIFT algorithm is time-consuming, so the FPGA acceleration is proposed for the light-weight device. The proposed implementation is compatible with real-time servoing of the prosthetic arm.

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2021 17th International Workshop on Cellular Nanoscale Networks and their Applications (CNNA)

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