Pioneering Automation in Agricultural Subsidy Processing through Deep Learning for Computer Vision

TY - JOUR

T1 - Pioneering Automation in Agricultural Subsidy Processing through Deep Learning for Computer Vision

AU - Braun, Kasper Toft Dupont

AU - Wulff, Jesper

PY - 2025

Y1 - 2025

N2 - Validating farmers’ eligibility for subsidies under the European Union’s Common Agricultural Policy (CAP) requires substantial resources. An automated solution can minimize human errors and save time. This study leverages deep learning to automate the validation process using ground-level landscape images (GLLP), an approach not previously explored. We conducted two rigorous experiments to identify the optimal model architecture and assess the impact of data cleaning, accurate labelling, reduced feature ambiguity, and stricter photo collection protocols on performance. Our results reveal that while the ResNet-18 architecture achieved a recall of 0.61 on the original dataset, distinguishing between eligible and ineligible grasslands was challenging. By addressing image quality and enforcing standardized data collection, accuracy improved to 0.89 and recall to 0.94. Crucially, our research emphasizes the development and validation of effective data collection strategies, ensuring uniformity and high-quality data essential for accurate model performance. Our findings affirm the potential of deep learning to automate subsidy eligibility classification, contingent on resolving challenges related to the quality and standardization of GLLP data.

AB - Validating farmers’ eligibility for subsidies under the European Union’s Common Agricultural Policy (CAP) requires substantial resources. An automated solution can minimize human errors and save time. This study leverages deep learning to automate the validation process using ground-level landscape images (GLLP), an approach not previously explored. We conducted two rigorous experiments to identify the optimal model architecture and assess the impact of data cleaning, accurate labelling, reduced feature ambiguity, and stricter photo collection protocols on performance. Our results reveal that while the ResNet-18 architecture achieved a recall of 0.61 on the original dataset, distinguishing between eligible and ineligible grasslands was challenging. By addressing image quality and enforcing standardized data collection, accuracy improved to 0.89 and recall to 0.94. Crucially, our research emphasizes the development and validation of effective data collection strategies, ensuring uniformity and high-quality data essential for accurate model performance. Our findings affirm the potential of deep learning to automate subsidy eligibility classification, contingent on resolving challenges related to the quality and standardization of GLLP data.

KW - Subsidy eligibility automation

KW - artificial intelligence

KW - common agricultural policy

KW - computer vision

KW - deep neural networks

KW - ground-level landscape images

UR - http://www.scopus.com/inward/record.url?scp=105001503913&partnerID=8YFLogxK

U2 - 10.1080/2573234X.2024.2436578

DO - 10.1080/2573234X.2024.2436578

M3 - Journal article

SN - 2573-234X

VL - 8

SP - 93

EP - 115

JO - Journal of Business Analytics

JF - Journal of Business Analytics

IS - 2

ER -