Title :
Neural-based human´s abnormal gait detection using Force Sensitive Resistors
Author :
Pawin, J. ; Khaorapapong, Thanate ; Chawalit, S.
Author_Institution :
Comput. Eng. Dept., Prince of Songkla Univ., Hatyai, Thailand
Abstract :
Abnormal gait leads to falling which can cause of human´s injury. Normally human has resembled gait cycle between walking. But if human has falling or abnormal walking that gait cycle is not resemble the normal walking. The walking gait can calculate the locus of the Zero Moment Point (ZMP) and the ZMP can be estimated by the signal from low-cost Force Sensitive Resistors (FSRs). Four FSRs were installed in the sole of a shoe. This paper presents the detection of human´s abnormal gait by using the FSRs signal. Artificial Neural Networks were applied to recognize ZMP locus of the normal gait cycle and use the trained neuron to classify the normal gait. Experimental data were recorded from 10 volunteers of age between 18-25 years, height 150-175 cm., and weight 40-75 kg, The results show that the neural network can detect abnormal gait cycles.
Keywords :
biology computing; force sensors; gait analysis; neural nets; pattern classification; FSR signal; ZMP locus recognition; age 18 yr to 25 yr; artificial neural network; force sensitive resistors; gait classification; gait cycle; human injury; humans abnormal gait detection; mass 40 kg to 75 kg; shoe sole; size 150 cm to 175 cm; walking gait; zero moment point; Biological neural networks; Foot; Force; Humans; Legged locomotion; Sensors; Simulation;
Conference_Titel :
Advanced Computational Intelligence (IWACI), 2011 Fourth International Workshop on
Conference_Location :
Wuhan
Print_ISBN :
978-1-61284-374-2
DOI :
10.1109/IWACI.2011.6160007
