基于计算机视觉的残疾人智能轮椅障碍检测与人体跟踪研究

2017 5th International Symposium on Computational and Business Intelligence (ISCBI) Pub Date : 2017-08-01 DOI:10.1109/ISCBI.2017.8053533

Fitri Utaminingrum, M. A. Fauzi, R. Wihandika, Sigit Adinugroho, Tri A. Kurniawan, Dahnial Syauqy, Y. A. Sari, P. P. Adikara

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引用次数: 13

摘要

身体有残疾的人，比如四肢瘫痪的人，可能需要一种帮助他们行动的设备。智能轮椅是在传统轮椅的基础上发展起来的，一般也配备传感器、摄像头和基于计算机的系统作为主要处理单元，能够执行特定的算法来实现智能能力。我们开发了基于计算机视觉的智能轮椅系统，便于障碍物检测和人体跟踪。使用RANSAC进行障碍物距离估计的实验结果显示，与线性回归的2.508 cm相比，RANSAC的平均误差仅为1.076 cm。人工导盲检测算法的平均精度也达到了80%以上的可接受水平。

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Development of computer vision based obstacle detection and human tracking on smart wheelchair for disabled patient

People with physical disability such as quadriplegics may need a device which assist their mobility. Smart wheelchair is developed based on conventional wheelchair and is also generally equipped with sensors, cameras and computer based system as main processing unit to be able to perform specific algorithm for the intelligent capabilities. We develop smart wheelchair system that facilitates obstacle detection and human tracking based on computer vision. The experiment result of obstacle distance estimation using RANSAC showed lower average error, which is only 1.076 cm compared to linear regression which is 2.508 cm. The average accuracy of human guide detecting algorithm also showed acceptable result, which yield over 80% of accuracy.

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2017 5th International Symposium on Computational and Business Intelligence (ISCBI)

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