Jose T. Colmenero-Martinez scite author profile

The management of olive pruning residue has shifted from burning to shredding, laying residues on soil, or harvesting residues for use as a derivative. The objective of this research is to develop, test, and validate a methodology to measure the dimensions, outline, and bulk volume of pruning residue windrows in olive orchards using both a manual and a 3D Time-of-Flight (ToF) camera. Trees were pruned using trunk shaker targeted pruning, from which two different branch sizes were selected to build two separate windrow treatments with the same pruning residue dose. Four windrows were built for each treatment, and four sampling points were selected along each windrow to take measurements using both manual and 3D ToF measurements. Windrow section outline could be defined using a polynomial or a triangular function, although manual measurement required processing with a polynomial function, especially for high windrow volumes. Different branch sizes provided to be significant differences for polynomial function coefficients, while no significant differences were found for windrow width. Bigger branches provided less bulk volume, which implied that these branches formed less porous windrows that smaller ones. Finally, manual and 3D ToF camera measurements were validated, giving an adequate performance for olive pruning residue windrow in-field assessment.

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An automatic trunk-detection system for intensive olive harvesting with trunk shaker

Colmenero-Martinez

Blanco-Roldán

Bayano-Tejero

et al. 2018

Biosystems Engineering

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Jose T. Colmenero-Martinez

Pruning systems to adapt traditional olive orchards to new integral harvesters

Methodology for Olive Pruning Windrow Assessment Using 3D Time-of-Flight Camera

An automatic trunk-detection system for intensive olive harvesting with trunk shaker

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