Apoptosis proteins have a central role in the development and homeostasis of an organism. These proteins are very important for the understanding the mechanism of programmed cell death, and their function is related t...Apoptosis proteins have a central role in the development and homeostasis of an organism. These proteins are very important for the understanding the mechanism of programmed cell death, and their function is related to their types. The apoptosis proteins are categorized into the following four types: (1) Cytoplasmic protein;(2) Plasma membrane-bound protein;(3) Mitochondrial inner and outer proteins;(4) Other proteins. A novel method, the Hilbert-Huang transform, is applied for predicting the type of a given apoptosis protein with support vector machine. High success rates were obtained by the re-substitute test (98/98=100%), jackknife test (91/98 = 92.9%).展开更多
针对Hilbert-Huang变换方法中由于信号经验模态分解(empirical mode decomposition,简称EMD)过程中所存在的端点效应问题,分析了现有数据延拓方式的利弊,并在基于斜率(slope based method,简称SBM)方法以及改进方法(improved slope base...针对Hilbert-Huang变换方法中由于信号经验模态分解(empirical mode decomposition,简称EMD)过程中所存在的端点效应问题,分析了现有数据延拓方式的利弊,并在基于斜率(slope based method,简称SBM)方法以及改进方法(improved slope based method,简称ISBM)的基础上提出了一种全新的基于斜率再优化(reoptimization slope based method,简称RO-SBM)方法用于信号序列的极值点延拓,然后对延拓后的数据进行EMD分解,得到相应的本征模函数(intrinsic mode function,简称IMF)分量。数值仿真结果表明,采用基于RO-SBM方法进行数据延拓,相比镜像延拓以及ISBM方法,可以更有效地抑制EMD中的端点效应问题,提升HHT方法的信号分析性能。通过基于RO-SBM方法进行数据延拓的HHT方法准确分离出了某转子系统的局部碰摩径向振动信号中所包含的故障特征分量,并将此方法成功应用于旋转机械故障诊断领域。展开更多
为了检测触电时刻剩余电流中生物体触电支路电流信号的难题,应用Hilbert-Huang变换方法,确定了生物触电时剩余电流的固有模态函数中相关系数最大的IMF分量的局部幅值达34.02 m A,且与原信号相关性系数达到0.99,同时剩余电流与触电电流...为了检测触电时刻剩余电流中生物体触电支路电流信号的难题,应用Hilbert-Huang变换方法,确定了生物触电时剩余电流的固有模态函数中相关系数最大的IMF分量的局部幅值达34.02 m A,且与原信号相关性系数达到0.99,同时剩余电流与触电电流暂态过程频谱特性具有相似变化规律。以此为基础,应用生物电流信号高频IMF分量幅值的突变特征,作为触电故障时刻确定判据,建立生物触电故障时刻判定方法,实际数据的仿真处理正确率为94.17%;筛选剩余电流分解的相关性较高的有限个数的低频固有模态IMF分量,应用逐步多元线性回归方法,提出基于剩余电流固有模态分量的生物触电支路电流幅值检测方法,仿真试验结果的平均相对误差值5.46%,具有良好的适应性和实用性,为研发基于生物体触电电流而动作的剩余电流保护装置提供参考。展开更多
文摘Apoptosis proteins have a central role in the development and homeostasis of an organism. These proteins are very important for the understanding the mechanism of programmed cell death, and their function is related to their types. The apoptosis proteins are categorized into the following four types: (1) Cytoplasmic protein;(2) Plasma membrane-bound protein;(3) Mitochondrial inner and outer proteins;(4) Other proteins. A novel method, the Hilbert-Huang transform, is applied for predicting the type of a given apoptosis protein with support vector machine. High success rates were obtained by the re-substitute test (98/98=100%), jackknife test (91/98 = 92.9%).
文摘针对Hilbert-Huang变换方法中由于信号经验模态分解(empirical mode decomposition,简称EMD)过程中所存在的端点效应问题,分析了现有数据延拓方式的利弊,并在基于斜率(slope based method,简称SBM)方法以及改进方法(improved slope based method,简称ISBM)的基础上提出了一种全新的基于斜率再优化(reoptimization slope based method,简称RO-SBM)方法用于信号序列的极值点延拓,然后对延拓后的数据进行EMD分解,得到相应的本征模函数(intrinsic mode function,简称IMF)分量。数值仿真结果表明,采用基于RO-SBM方法进行数据延拓,相比镜像延拓以及ISBM方法,可以更有效地抑制EMD中的端点效应问题,提升HHT方法的信号分析性能。通过基于RO-SBM方法进行数据延拓的HHT方法准确分离出了某转子系统的局部碰摩径向振动信号中所包含的故障特征分量,并将此方法成功应用于旋转机械故障诊断领域。
文摘为了检测触电时刻剩余电流中生物体触电支路电流信号的难题,应用Hilbert-Huang变换方法,确定了生物触电时剩余电流的固有模态函数中相关系数最大的IMF分量的局部幅值达34.02 m A,且与原信号相关性系数达到0.99,同时剩余电流与触电电流暂态过程频谱特性具有相似变化规律。以此为基础,应用生物电流信号高频IMF分量幅值的突变特征,作为触电故障时刻确定判据,建立生物触电故障时刻判定方法,实际数据的仿真处理正确率为94.17%;筛选剩余电流分解的相关性较高的有限个数的低频固有模态IMF分量,应用逐步多元线性回归方法,提出基于剩余电流固有模态分量的生物触电支路电流幅值检测方法,仿真试验结果的平均相对误差值5.46%,具有良好的适应性和实用性,为研发基于生物体触电电流而动作的剩余电流保护装置提供参考。