# Predicting changes in visual appearance of periodic surface from brdf   measurements

**Authors:** C. Turbil (SVI), I. Gozhyk (SVI), J. Teisseire (SVI), I. Simonsen, (SVI), G. Ged (LNE-CNAM), G. Obein (LNE-CNAM)

arXiv: 1703.00704 · 2017-03-03

## TL;DR

This paper investigates how surface geometry and diffraction phenomena influence the visual appearance of periodic surfaces through BRDF measurements and theoretical analysis.

## Contribution

It introduces a method to predict visual changes in periodic surfaces based on BRDF measurements and diffraction effects, highlighting the impact of complex patterns.

## Key findings

- Diffraction effects confirmed at high angular resolution
- Surface functionalization impacts visual appearance
- Complex periodic patterns can significantly alter visual perception

## Abstract

The present study focuses on the optical properties of functionalized surfaces and how the surface geometry impacts them. Physical measurements of reflected light are required to understand the visual aspect of such surfaces. Bidirectional Reflection Distribution Function (BRDF) is evaluated in order to identify and understand physical effects induced by different surface functionalization. BRDF measurements of high angular resolution allow us to observe diffraction phenomenon at an unusual scale. Experimental results were compared to theoretical calculation, and then diffraction effect was confirmed. This study stresses that diffractive phenomenon could have an impact on visual aspect even for simple pattern geometry. In the same way, if more complex periodic patterns are considered, as multistate periodicity pattern for example, it could rise to important modification of surface visual aspect.

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Source: https://tomesphere.com/paper/1703.00704