Archive/Application of a Beaufort Scale-Based Mimetic System in Camouflage Garment Design
Application of a Beaufort Scale-Based Mimetic System in Camouflage Garment Design
Shih-Wen Hsiao, Po-Hsiang Peng
July 9, 2026
en

Abstract

Camouflage design for jungle environments has conventionally relied on the static optimization of color, texture, and edge features, presuming that the background remains visually stable. This presumption diverges from real conditions, in which wind continuously alters leaf orientation and vegetation texture, leaving a gap between static optimization and dynamic visual reality. To address this limitation, this study developed a systematic camouflage design process that integrates the Beaufort scale into a mimetic system for simulating vegetation sway. Dominant colors were extracted using the CIE L*a*b* color space and K-means clustering, and background maps were generated via Gaussian blur. Leaf textures from five plant species were arranged through seamless tiling and overlaid onto the backgrounds to form 15 camouflage samples. Validation employed a fuzzy logic questionnaire and eye-tracking measurements. Under the present experimental conditions, which used screen presentation under visible light, pattern A-13 performed best. Derived from the Terminalia mantaly leaf texture in the dark green variant, it achieved the most favorable balance between distinctiveness from the regional reference pattern and disruption of target–background segmentation, whereas C-15, the light green variant, consistently ranked last. The proposed process is reproducible and applicable to civilian equipment such as tents and backpacks.

IPC Classification

A01

Keywords

applicationbeaufortscale-basedmimeticsystemcamouflagegarmentdesigninventionsjungleenvironmentsconventionallyreliedstaticoptimizationcolortextureedgefeaturespresumingbackgroundremainsvisuallystable
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