Universal Scale Laws for Colors and Patterns in Imagery

Rémi Michel, Mohamed Tamaazousti
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Abstract

Distribution of colors and patterns in images is observed through cascades that adjust spatial resolution and dynamics. Cascades of colors reveal the emergent universal property that Fully Colored Images (FCIs) of natural scenes adhere to the debated continuous linear log-scale law (slope $-2.00 \pm 0.01$) (L1). Cascades of discrete $2 \times 2$ patterns are derived from pixel squares reductions onto the seven unlabeled rotation-free textures (0000, 0001, 0011, 0012, 0101, 0102, 0123). They exhibit an unparalleled universal entropy maximum of $1.74 \pm 0.013$ at some dynamics regardless of spatial scale (L2). Patterns also adhere to the Integral Fluctuation Theorem ($1.00 \pm 0.01$) (L3), pivotal in studies of chaotic systems. Images with fewer colors exhibit quadratic shift and bias from L1 and L3 but adhere to L2. Randomized Hilbert fractals FCIs better match the laws than basic-to-AI-based simulations. Those results are of interest in Neural Networks, out of equilibrium physics and spectral imagery.
图像中颜色和图案的通用比例法则
图像中颜色和图案的分布是通过调整空间分辨率和动态的级联来观察的。色彩级联揭示了自然场景的全彩色图像(FCIs)符合有争议的连续线性对数尺度定律(斜率为 $-2.00 \pm 0.01$)(L1)这一普遍特性。2 元乘以 2 元的离散图案级联是由像素平方还原到七种无标签无旋转纹理(0000, 0001, 0011,0012, 0101, 0102, 0123)上得到的。无论空间尺度(L2)如何,它们在某些动态范围内都表现出了无与伦比的普遍熵最大值 1.74 (/pm 0.013$)。图案还符合积分波动定理(1.00 \pm 0.01$)(L3),这在混沌系统研究中至关重要。颜色较少的图像会出现二次偏移,偏离 L1 和 L3,但符合 L2。随机希尔伯特分形 FCI 比基于基础到人工智能的模拟更符合规律。这些结果对神经网络、失衡物理学和光谱图像都很有意义。
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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