Your search keyword '"Taheri-Garavand A"' showing total 2 results

1. Employment of artificial neural networks for non-invasive estimation of leaf water status using color features: a case study in Spathiphyllum wallisii

Author

Taheri-Garavand, Amin, Rezaei Nejad, Abdolhossein, Fanourakis, Dimitrios, Fatahi, Soodabeh, and Ahmadi Majd, Masoumeh

Published

2021

2. Employment of artificial neural networks for non-invasive estimation of leaf water status using color features: a case study in Spathiphyllum wallisii

Author

Abdolhossein Rezaei Nejad, Soodabeh Fatahi, Dimitrios Fanourakis, Masoumeh Ahmadi Majd, and Amin Taheri-Garavand

Subjects

0106 biological sciences, 0301 basic medicine, Spathiphyllum wallisii, biology, Physiology, Feature vector, Feature extraction, Image processing, Plant Science, Color space, biology.organism_classification, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Feature (computer vision), Principal component analysis, RGB color model, Biological system, Agronomy and Crop Science, 010606 plant biology & botany, Mathematics

Abstract

The potential of combining artificial neural networks (ANNs) and image processing for assessing leaf relative water content (RWC) and water content (WC) was addressed. Spathiphyllum wallisii was employed as model species, because it has broad leaves and very responsive stomata. In the course of desiccation, leaves were periodically weighted (to calculate RWC and WC conventionally) and imaged. Image acquisition was performed by a scanner, and was, thus, independent of ambient light environment. Color feature extraction was performed in three color spaces (RGB, HSI, and CIELAB), while six texture statistical features were calculated for each of the (nine) computed color channels. Prior to model development via ANNs, the obtained feature vector underwent feature reduction using principal component analysis. The presented methodology yielded very precise estimations of leaf RWC and WC (correlation coefficient > 0.95). Therefore, the technique under study was proven to be very promising for non-invasive in situ measurements of leaf water status.

Published

2021