Intrinsic Noise Monitoring of Complex Systems

生物物理学期刊(英文) Pub Date : 2017-07-31 DOI:10.4236/OJBIPHY.2017.74015
O. Szász, G. Szigeti, A. Szász
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引用次数: 2

Abstract

The power-density function of the noise spectrum of open and complex systems changes by the power of frequency. We show that the fluctuation origin and the noise-powered description are equivalent to describe the colored noise power density. Based on this, we introduce a scale-independent invariant for monitoring the dynamics of the complex system. The monitoring of the noise spectrum of the system specifies the forecast of failure, the timing of desired regular corrections and/or the assessed operation life of the system, indicating the possible faults before it happens, predicting deterioration like wear/tear, fatigue in the still properly working system. These considerations are highly applicable to living systems and their preventive care.
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复杂系统的固有噪声监测
开放复杂系统噪声谱的功率密度函数随频率的功率变化。我们证明了波动源和噪声功率描述等价于描述有色噪声功率密度。在此基础上,我们引入了一个与尺度无关的不变量来监测复杂系统的动力学。系统噪声谱的监测规定了故障的预测、所需定期校正的时间和/或系统的评估运行寿命,在故障发生之前指示可能的故障,预测仍然正常工作的系统中的磨损、疲劳等恶化。这些考虑因素高度适用于生活系统及其预防性护理。
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来源期刊
生物物理学期刊(英文)
生物物理学期刊(英文)
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