Automatic flower cluster estimation in apple orchards using aerial and ground based point clouds

Chenglong Zhang, Christiaan Mouton, João Valente*, Lammert Kooistra, Rachel van Ooteghem, Dirk de Hoog, Pieter van Dalfsen, Peter Frans de Jong

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

10 Citations (Scopus)


Chemical and mechanical thinning processes have long been used in stone and pome fruit production. During the thinning of apple flowers, growers use chemicals to regulate the tree load. Hand thinning is applied after the June drop to prune trees with excess crop load. The process of thinning can be unpredictable especially in biennial bearing cultivars. Thus, incentives to optimise chemical usage and to reduce expensive manual labour is ever increasing. Ground based machine vision systems have grown in popularity in orchard management due to the level of detail as well as plant coverage they can inspect with. Additionally, unmanned aerial vehicles (UAV) -based remote sensing technology is becoming a popular non-invasive quality inspection solution. This work proposes a framework for combining UAV and ground based RGB image data to detect flowering intensity in a Dutch Elstar apple orchard. The framework, based on point cloud reconstruction, presents automatic point cloud handling techniques as well as automated unsupervised flowering intensity estimation methods. Two linear regression models based on unsupervised machine learning methods were trained and validated from the framework that estimate flowering intensity in the orchard with both models having R2 > 0.65, RRMSE < 20% and p-stat < 0.005 for the correlation between the image derived flower index and the flower cluster number counted in field. The proposed methods provide a novel strategy for guiding flower thinning using simple RGB images and location data only. Moreover, the proposed methods also reveal the flexibility of intra-tree inspection by checking its sub-volumes.

Original languageEnglish
Pages (from-to)164-180
Number of pages17
JournalBiosystems Engineering
Early online dateSept 2022
Publication statusPublished - Sept 2022


  • blossom
  • ground vehicles
  • machine learning
  • point cloud
  • structure-from-motion
  • UAV


Dive into the research topics of 'Automatic flower cluster estimation in apple orchards using aerial and ground based point clouds'. Together they form a unique fingerprint.

Cite this