Document Type
Article
Publication Date
10-2017
Publication Title
Journal of Applied Remote Sensing
Abstract
Coffee is an important crop in tropical regions of the world; about 125 million people depend on coffee agriculture for their livelihoods. Understanding the spatial extent of coffee fields is useful for management and control of coffee pests such as Hypothenemus hampei and other pests that use coffee fruit as a host for immature stages such as the Mediterranean fruit fly, for economic planning, and for following changes in coffee agroecosystems over time. We present two methods for detecting Coffea arabica fields using remote sensing and geospatial technologies on WorldView-2 high-resolution spectral data of the Kona region of Hawaii Island. The first method, a pixel-based method using a maximum likelihood algorithm, attained 72% producer accuracy and 69% user accuracy (68% overall accuracy) based on analysis of 104 ground truth testing polygons. The second method, an object-based image analysis (OBIA) method, considered both spectral and textural information and improved accuracy, resulting in 76% producer accuracy and 94% user accuracy (81% overall accuracy) for the same testing areas. We conclude that the OBIA method is useful for detecting coffee fields grown in the open and use it to estimate the distribution of about 1050 hectares under coffee agriculture in the Kona region in 2012.
Recommended Citation
Gaertner, Julie; Brooks Genovese, Vanessa; Potter, Christopher; Sewake, Kelvin; and Manoukis, Nicholas C., "Vegetation classification of Coffea on Hawaii Island using WorldView-2 satellite imagery" (2017). School of Natural Sciences Faculty Publications and Presentations. 54.
https://digitalcommons.csumb.edu/sns_fac/54
Comments
Published in Journal of Applied Remote Sensing by the Society of Photo-optical Instrumentation Engineers (SPIE). Available via doi: 10.1117/1.JRS.11.046005.
Published by SPIE under a Creative Commons Attribution 3.0 Unported License. Distribution or reproduction of this work in whole or in part requires full attribution of the original publication, including its DOI.