Tunable Q - wavelet transform based features for automated screening of knee-joint vibroarthrographic signals

2018 5th International Conference on Signal Processing and Integrated Networks (SPIN) Pub Date : 2018-02-01 DOI:10.1109/SPIN.2018.8474117

Jayrajsinh Zala, M. Sharma, R. Bhalerao

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引用次数: 10

Abstract

Pathological conditions in the knee joint can be caused by vibrations emitted in knee joint while bending or extending the leg. To detect this vibrations or to know the inner condition of the joint like softening, coarseness, breakage or it’s state of lubrication of articular cartilage surface, vibroarthrographic (VAG) signal is useful. The VAG signal is used because of fluctuating and nonlinear property which is helpful to extract the condition of knee joint. In present work on VAG signals by using the TQWT decomposition. VAG signals are partitioned into sub-band signals of distinct frequencies. There are different features of VAG Signals, fluctuating in nature like Kraskov Entropy (KE) and Signal Fractal Dimension (SFD). The performance of feature selection (FS) techniques can be validated through using the Least square support Vector machine (LS-SVM). By using LS-SVM classifier we have achieved an accuracy of 86.91%, sensitivity of 88.33%, specificity of 86.66% based on the input of 89 VAG signals.

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基于可调Q -小波变换的特征自动筛选膝关节关节振动信号

膝关节的病理状况可由弯曲或伸展腿部时膝关节发出的振动引起。为了检测这种振动或了解关节内部情况，如关节软骨表面的软化、粗糙、断裂或润滑状态，关节振动图(VAG)信号是有用的。利用VAG信号的波动和非线性特性，有助于提取膝关节的状态。目前对VAG信号进行了TQWT分解。VAG信号被划分为不同频率的子带信号。VAG信号具有不同的特征，像克拉斯科夫熵(klaskov Entropy, KE)和信号分形维数(Signal Fractal Dimension, SFD)一样具有波动性。使用最小二乘支持向量机(LS-SVM)可以验证特征选择(FS)技术的性能。使用LS-SVM分类器对输入的89个VAG信号进行分类，准确率为86.91%，灵敏度为88.33%，特异性为86.66%。

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2018 5th International Conference on Signal Processing and Integrated Networks (SPIN)

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