To explore the correlation between crop leaf digital RGB (Red, Green and Blue) image features and the corresponding moisture content of the leaf, a Canon digital camera was used to collect image information from detached leaves of heading-stage maize. A drying method was adopted to measure the moisture content of the leaf samples, and image processing technologies, including gray level co-occurrence matrices and grayscale histograms, was used to extract the maize leaf texture feature parameters and color feature parameters. The correlations of these feature parameters with moisture content were analyzed. It is found that the texture parameters of maize leaf RGB images, including contrast, correlation, entropy and energy, were not significantly correlated with moisture content. Thus, it was difficult to use these features to predict moisture content. Of the six groups of eigenvalues for the leaf color feature parameters, including mean, variance, energy, entropy, kurtosis and skewness, mean and kurtosis were found to be correlated with moisture content. Thus, these features could be used to predict the leaf moisture content. The correlation coefficient (R2) of the mean-moisture content relationship model was 0.7017, and the error of the moisture content prediction was within

maize leaf, moisture content, image processing, color feature extraction, texture feature extraction

Huang Y X, Han W T, Zhou L, Liu W S, Liu J D. Farmer cognition on water-saving irrigation technology and its influencing factors analysis. Transactions of the Chinese Society of Agricultural Engineering, 2012; 28(18): 113-120. (in Chinese with English abstract)

Han W T, Wu P T, Feng H, Yang Q. Theoretical study on variable-rate sprinklers for high uniformity precision irrigation. Transactions of the Chinese Society of Agricultural Engineering, 2005; 21(10): 13-16. (in Chinese with English abstract)

Chen X W, Han W T. Spectroscopic determination of leaf water content using linear regression and an artificial neural network. African Journal of Biotechnology, 2012; 11(10): 2518-2527.

Thanh H N, Tateishi R. Persistent water, temporary water, partial water mapping using MODIS data 2008. The 32nd Asian Conference on Remote Sensing, 2011; volume 2, pp 977-982.

Modzelewska-Kapitua M, Cierach M. Correlation of the attributes measured by computer vision with moisture and fat content of meat batters. Food Science and Technology Research, 2012; 18(6): 769-779.

Ballester C, Jimenez-Bello M A, Castel J R, Intrigliolo D S. Usefulness of thermography for plant water stress detection in citrus and persimmon trees. Agricultural and Forest Meteorology, 2013; 168: 120-129.

Wang F, Omasa K. Image measurements of leaf scorches on landscape trees subjected to extreme meteorological events. Ecological Informatics, 2012; 12: 16-22.

Kim Y, Glenn D M, Park J, Ngugi H K, Lehman B L. Hyperspectral image analysis for water stress detection of apple trees. Computers and Electronics in Agriculture, 2011; 77(2): 155-160.

Wang F Y, Wang K R, Wang C T, Li S K, Zhu Y, Chen B, et al. Diagnosis of cotton water status based on image recognition. Journal of Shihezi University (Natural Science), 2007; 25(4): 404-408.

Song Y J, Xie S Y. Application of machine vision in the irrigation for tropaeolum. Journal of Southwest Agricultural University, 2006; 28(4): 659-662.

Zakaluk R, Sri Ranjan R. Predicting the leaf water potential of potato plants using RGB reflectance. Canadian Biosystems Engineering, 2008; 50(7): 1-7.

Gao C C, Hui X Wei. GLCM-based texture feature extraction. Computer Systems and Applications, 2010; 19(6): 195-197.

Moffett K B, Gorelick S M. Distinguishing wetland vegetation and channel features with object-based image segmentation. International Journal of Remote Sensing, 2013; 34(4): 1332-1354.

Chung S O, Cho K H, Kong J W, Sudduth K A, Jung K Y. Soil texture classification algorithm using RGB characteristics of soil images. 3rd IFAC International Conference Agricontrol, 2010; Volume 3, Part 1, pp 34-38. DOI: 10.3182/20101206-3-JP-3009.00005.

Hendrawan Y, Murase H. Image feature selection in machine vision for determining Sunagoke moss water content (bio-inspired approaches). American Society of Agricultural and Biological Engineers Annual International Meeting, 2010; volume 2, pp 976-993.

Hendrawan Y, Murase H. Bio-inspired feature selection to select informative image features for determining water content of cultured Sunagoke moss. Expert Systems with Applications, 2011; 33(11): 14321-14335.

Hendrawan Y, Murase H. Neural-Intelligent water drops algorithm to select relevant textural features for developing precision irrigation system using machine vision. Computers and Electronics in Agriculture, 2011; 77(2): 214-228.