Data fusion for a multi-scale model of a wheat leaf surface: a unifying approach using a radial basis function partition of unity method

TL;DR

This paper presents a novel multi-scale modeling approach for wheat leaf surfaces using radial basis function partition of unity, enabling detailed microstructure capture without large data requirements.

Contribution

It introduces a unifying RBFPU surface reconstruction method that combines micro-CT and laser scans for multi-scale leaf modeling.

Findings

Successfully captures microstructures on wheat leaves

Enables multi-scale surface modeling with limited data

Facilitates fluid dynamics simulations of droplets

Abstract

Realistic digital models of plant leaves are crucial to fluid dynamics simulations of droplets for optimising agrochemical spray technologies. The presence and nature of small features (on the order of 100$\mathrm{\mu m}$) such as ridges and hairs on the surface have been shown to significantly affect the droplet evaporation, and thus the leaf's potential uptake of active ingredients. We show that these microstructures can be captured by implicit radial basis function partition of unity (RBFPU) surface reconstructions from micro-CT scan datasets. However, scanning a whole leaf ($20\mathrm{cm^2}$) at micron resolutions is infeasible due to both extremely large data storage requirements and scanner time constraints. Instead, we micro-CT scan only a small segment of a wheat leaf ($4\mathrm{mm^2}$). We fit a RBFPU implicit surface to this segment, and an explicit RBFPU surface to a lower resolution laser scan of the whole leaf. Parameterising the leaf using a locally orthogonal coordinate system, we then replicate the now resolved microstructure many times across a larger, coarser, representation of the leaf surface that captures important macroscale features, such as its size, shape, and orientation. The edge of one segment of the microstructure model is blended into its neighbour naturally by the partition of unity method. The result is one implicit surface reconstruction that captures the wheat leaf's features at both the micro- and macro-scales.