An Accelerometer Based Gait Analysis System to Detect Gait Abnormalities in Cerebralspinal Meningitis Patients

Tung-Hua Yu, Chao-Cheng Wu
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引用次数: 2

Abstract

This paper proposed a gait analysis system to detect abnormal gaits based on each gait cycle. The proposed system took advantage of a tri-axial accelerometer to collect the gait signals in three dimensions. The collected signals were divided into four intervals for each gait cycle, including the step, swing, stance phase, and stride. The time domain and time-frequency domain features were generated for each interval. Later, Fisher score was calculated to determine discrimination ability for each feature. Support Vector Machine would be trained for classification of normal and abnormal gaits based on selected features with the highest Fisher scores. Cerebralspinal Meningitis (CSM) patients with/without spinal cord edema were used as samples to conduct the experiments. The results demonstrated that the proposed gait analysis system could provide 90% accuracy. The feature subset with the best accuracy includes kurtosis, crest factor, and mean of lateral acceleration data in stride interval. It implied the force to make the body left and right in stride interval is an critical indicator for diagnosis of spinal cord edema. The proposed gait analysis system could further be extended to more symptoms if other sets of training samples are available in the future.
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基于加速度计的步态分析系统检测脑脊膜炎患者步态异常
提出了一种基于每个步态周期检测异常步态的步态分析系统。该系统利用三轴加速度计对步态信号进行三维采集。采集到的信号被划分为每个步态周期的4个时段,包括步进、摇摆、站立阶段和步幅。对每个区间分别生成时域和时频域特征。然后,计算Fisher分数来确定每个特征的辨别能力。支持向量机将根据选择的具有最高Fisher分数的特征来训练正常和异常步态的分类。以伴有/不伴有脊髓水肿的CSM患者为样本进行实验。结果表明,所提出的步态分析系统可以提供90%的准确率。精度最高的特征子集包括峰度、波峰系数和跨步段横向加速度数据的平均值。提示在步幅间隔内使身体左右移动的力是诊断脊髓水肿的重要指标。如果将来有更多的训练样本,所提出的步态分析系统可以进一步扩展到更多的症状。
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