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第28行: − 在数学中,一个自相似的物体与它自身的某一部分完全或近似地相似(例如:整体和一个或多个部分具有相同的形状)。现实世界中的许多物体,例如海岸线,在统计学上是自相似的:它们的某些部分在许多不同尺度上表现出相同的统计特性。自相似是分形的一个典型性质。标度不变性是自相似的一种精确形式:在任何放大倍数下,物体中总有更小的部分与整体相似。例如,科赫雪花的一边既对称又具有标度不变性;它可以连续放大3倍而不改变形状。分形中明显的非平凡的相似性是通过它们的精细结构或任意小尺度上的细节来区分的。作为一个反例,尽管直线的任何部分都可能类似于整体,但是进一步放大之后,却没有更多的细节显露。+ + 第34行:
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在数学中,一个自相似的物体与它自身的某一部分完全或近似地相似(例如:整体和一个或多个部分具有相同的形状)。现实世界中的许多物体,例如海岸线,在统计学上是自相似的:它们的某些部分在许多不同尺度上表现出相同的统计特性。自相似是分形的一个典型性质。标度不变性是自相似的一种精确形式:在任何放大倍数下,物体中总有更小的部分与整体相似。例如,科赫雪花的一边既对称又具有标度不变性;它可以连续放大3倍而不改变形状。分形中明显的非平凡的相似性是通过它们的精细结构或任意小尺度上的细节来区分的。对比一个反例来看,尽管直线的任何部分都可能类似于整体,但是进一步放大之后,却没有更多的细节显露。
A time developing phenomenon is said to exhibit self-similarity if the numerical value of certain observable quantity <math>f(x,t)</math> measured at different times are different but the corresponding dimensionless quantity at given value of <math>x/t^z</math> remain invariant. It happens if the quantity <math>f(x,t)</math> exhibits [[dynamic scaling]]. The idea is just an extension of the idea of similarity of two triangles.<ref>{{cite journal | author = Hassan M. K., Hassan M. Z., Pavel N. I. | year = 2011 | title = Dynamic scaling, data-collapseand Self-similarity in Barabasi-Albert networks | url = | journal = J. Phys. A: Math. Theor. | volume = 44 | issue = 17| page = 175101 | doi=10.1088/1751-8113/44/17/175101| arxiv = 1101.4730| bibcode = 2011JPhA...44q5101K}}</ref><ref>{{cite journal | author = Hassan M. K., Hassan M. Z. | year = 2009 | title = Emergence of fractal behavior in condensation-driven aggregation | url = | journal = Phys. Rev. E | volume = 79 | issue = 2| page = 021406 | doi=10.1103/physreve.79.021406| pmid = 19391746 | arxiv = 0901.2761| bibcode = 2009PhRvE..79b1406H}}</ref><ref>{{cite journal | author = Dayeen F. R., Hassan M. K. | year = 2016 | title = Multi-multifractality, dynamic scaling and neighbourhood statistics in weighted planar stochastic lattice | url = | journal = Chaos, Solitons & Fractals | volume = 91 | issue = | page = 228 | doi=10.1016/j.chaos.2016.06.006| arxiv = 1409.7928| bibcode = 2016CSF....91..228D}}</ref> Note that two triangles are similar if the numerical values of their sides are different however the corresponding dimensionless quantities, such as their angles, coincide.
A time developing phenomenon is said to exhibit self-similarity if the numerical value of certain observable quantity <math>f(x,t)</math> measured at different times are different but the corresponding dimensionless quantity at given value of <math>x/t^z</math> remain invariant. It happens if the quantity <math>f(x,t)</math> exhibits [[dynamic scaling]]. The idea is just an extension of the idea of similarity of two triangles.<ref>{{cite journal | author = Hassan M. K., Hassan M. Z., Pavel N. I. | year = 2011 | title = Dynamic scaling, data-collapseand Self-similarity in Barabasi-Albert networks | url = | journal = J. Phys. A: Math. Theor. | volume = 44 | issue = 17| page = 175101 | doi=10.1088/1751-8113/44/17/175101| arxiv = 1101.4730| bibcode = 2011JPhA...44q5101K}}</ref><ref>{{cite journal | author = Hassan M. K., Hassan M. Z. | year = 2009 | title = Emergence of fractal behavior in condensation-driven aggregation | url = | journal = Phys. Rev. E | volume = 79 | issue = 2| page = 021406 | doi=10.1103/physreve.79.021406| pmid = 19391746 | arxiv = 0901.2761| bibcode = 2009PhRvE..79b1406H}}</ref><ref>{{cite journal | author = Dayeen F. R., Hassan M. K. | year = 2016 | title = Multi-multifractality, dynamic scaling and neighbourhood statistics in weighted planar stochastic lattice | url = | journal = Chaos, Solitons & Fractals | volume = 91 | issue = | page = 228 | doi=10.1016/j.chaos.2016.06.006| arxiv = 1409.7928| bibcode = 2016CSF....91..228D}}</ref> Note that two triangles are similar if the numerical values of their sides are different however the corresponding dimensionless quantities, such as their angles, coincide.
A time developing phenomenon is said to exhibit self-similarity if the numerical value of certain observable quantity <math>f(x,t)</math> measured at different times are different but the corresponding dimensionless quantity at given value of <math>x/t^z</math> remain invariant. It happens if the quantity <math>f(x,t)</math> exhibits dynamic scaling. The idea is just an extension of the idea of similarity of two triangles. Note that two triangles are similar if the numerical values of their sides are different however the corresponding dimensionless quantities, such as their angles, coincide.
A time developing phenomenon is said to exhibit self-similarity if the numerical value of certain observable quantity <math>f(x,t)</math> measured at different times are different but the corresponding dimensionless quantity at given value of <math>x/t^z</math> remain invariant. It happens if the quantity <math>f(x,t)</math> exhibits dynamic scaling. The idea is just an extension of the idea of similarity of two triangles. Note that two triangles are similar if the numerical values of their sides are different however the corresponding dimensionless quantities, such as their angles, coincide.
对于一个依赖时间发展的现象,如果其相关观测量<math>f(x,t)</math>在不同时间所测得的数值不同,但是对应的无量纲量在给定的<math>x/t^z</math>下保持不变,则可以说该现象具有自相似性。
对于一个依赖时间发展的现象,如果其相关观测量<math>f(x,t)</math>在不同时间所测得的数值不同,但是对应的无量纲量在给定的<math>x/t^z</math>下保持不变,则可以说该现象具有自相似性。通常如果<math>f(x,t)</math>显示出动态缩放就会出现这种情况。
一个时间发展的现象被称为自相似性,如果某个可观测量的数值,在不同时间测量的 math f (x,t) / math 是不同的,但是在给定的 math x / t ^ z / math 值下相应的无量纲量是不变的。如果数学量 f (x,t) / math 表现出动态缩放,就会发生这种情况。这个概念只是两个三角形相似性概念的延伸。请注意,如果两个三角形的边的数值不同,那么它们是相似的,但是对应的无量纲量,例如它们的角重合。
一个时间发展的现象被称为自相似性,如果某个可观测量的数值,在不同时间测量的 math f (x,t) / math 是不同的,但是在给定的 math x / t ^ z / math 值下相应的无量纲量是不变的。如果数学量 f (x,t) / math 表现出动态缩放,就会发生这种情况。这个概念只是两个三角形相似性概念的延伸。请注意,如果两个三角形的边的数值不同,那么它们是相似的,但是对应的无量纲量,例如它们的角重合。