Time-Fractal in Living Objects

A. Szász
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引用次数: 1

Abstract

Homeostasis creates self-organized synchrony of the body’s reactions, and despite the energetically open system with intensive external and internal interactions, it is robustly stable. Importantly the self-organized system has scal-ing behaviors in its allometry, internal structures, and dynamic processes. The system works stochastically. Deterministic reductionism has validity only by the great average of the probabilistic processes. The system’s dynamics have a characteristic distribution of signals, which may be characterized by their frequency distribution, creating a particular “noise” 1/f of the power density. The stochastic processes produce resonances pumped by various noise spectra. The chemical processes are mostly driven by enzymatic processes, which also have noise-dependent resonant optimizing. The resonance frequencies are as many as many enzymatic reactions exist in the target.
活物体的时间分形
体内平衡创造了身体反应的自组织同步,尽管能量开放系统具有密集的外部和内部相互作用,但它是非常稳定的。重要的是,自组织系统在异速生长、内部结构和动态过程中具有标度行为。这个系统是随机工作的。确定性还原论只有在概率过程的大平均情况下才有效。系统的动力学具有信号的特征分布,其特征可能是它们的频率分布,产生功率密度1/f的特定“噪声”。随机过程产生由各种噪声谱泵浦的共振。化学过程主要由酶促过程驱动,酶促过程也具有噪声依赖的共振优化。共振频率与靶标中存在的酶促反应数量相同。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
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