Agricultural UAV-based remote sensing tools to facilitate decision-making for increasing productivity in developing countries were developed and tested. Specifically, a high-quality multispectral sensor and sophisticated-yet-user-friendly data processing techniques (software) under an open-access policy were implemented. The multispectral sensor—IMAGRI-CIP—is a low-cost adaptable multi-sensor array that allows acquiring high-quality and low-SNR images from a UAV platform used to estimate vegetation indexes such as NDVI. Also, a set of software tools that included wavelet-based image alignment, image stitching, and crop classification have been implemented and made available to the remote sensing community. A validation field experiment carried out at the International Potato Center facilities (Lima, Peru) to test the developed tools is reported. A thorough comparison study with a wide-used commercial agricultural camera showed that IMAGRI-CIP provides highly correlated NDVI values (R2≥ 0.8). Additionally, an application field experiment was conducted in Kilosa, Tanzania, to test the tools in smallholder farm settings, featuring high-heterogeneous crop plots. Results showed high accuracy (> 82%) to identify 13 different crops either as mono-crop or as mixed-crops.
Development of low-cost remote sensing tools and methods for supporting smallholder agriculture.
Citation: Cucho-Padin, G.; Loayza, H.; Palacios, S.; Balcazar, M.; Carbajal, M.; Quiroz, R. 2019. Development of low-cost remote sensing tools and methods for supporting smallholder agriculture. Applied Geomatics. ISSN: 1866-9298. 17 p.
IMAGE PROCESSING, MULTISPECTRAL IMAGERY, NORMALIZED DIFFERENCE VEGETATION INDEX, REMOTE SENSING, SENSORS
BIGDATA, CLIMATE-SMART AGRICULTURE, CROP PROTECTION, IMPACT ASSESSMENT
LATIN AMERICA, SOUTH AMERICA