Jiangui Liu scite author profile

Remote sensing is a useful tool for monitoring spatio-temporal variations of crop morphological and physiological status and supporting practices in precision farming. In comparison with multispectral imaging, hyperspectral imaging is a more advanced technique that is capable of acquiring a detailed spectral response of target features. Due to limited accessibility outside of the scientific community, hyperspectral images have not been widely used in precision agriculture. In recent years, different mini-sized and low-cost airborne hyperspectral sensors (e.g., Headwall Micro-Hyperspec, Cubert UHD 185-Firefly) have been developed, and advanced spaceborne hyperspectral sensors have also been or will be launched (e.g., PRISMA, DESIS, EnMAP, HyspIRI). Hyperspectral imaging is becoming more widely available to agricultural applications. Meanwhile, the acquisition, processing, and analysis of hyperspectral imagery still remain a challenging research topic (e.g., large data volume, high data dimensionality, and complex information analysis). It is hence beneficial to conduct a thorough and in-depth review of the hyperspectral imaging technology (e.g., different platforms and sensors), methods available for processing and analyzing hyperspectral information, and recent advances of hyperspectral imaging in agricultural applications. Publications over the past 30 years in hyperspectral imaging technology and applications in agriculture were thus reviewed. The imaging platforms and sensors, together with analytic methods used in the literature, were discussed. Performances of hyperspectral imaging for different applications (e.g., crop biophysical and biochemical properties’ mapping, soil characteristics, and crop classification) were also evaluated. This review is intended to assist agricultural researchers and practitioners to better understand the strengths and limitations of hyperspectral imaging to agricultural applications and promote the adoption of this valuable technology. Recommendations for future hyperspectral imaging research for precision agriculture are also presented.

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Assessment of vegetation indices for regional crop green LAI estimation from Landsat images over multiple growing seasons

Liu

Pattey

Jégo

2012

Remote Sensing of Environment

206

132

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Retrieval of leaf area index from top-of-canopy digital photography over agricultural crops

Liu

Pattey

2010

Agricultural and Forest Meteorology

135

110

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Assessment of red-edge vegetation indices for crop leaf area index estimation

Dong

Liu

Qian

et al. 2019

Remote Sensing of Environment

222

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Estimating crop stresses, aboveground dry biomass and yield of corn using multi-temporal optical data combined with a radiation use efficiency model

Liu

Pattey

Miller

et al. 2010

Remote Sensing of Environment

176

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Jiangui Liu

Recent Advances of Hyperspectral Imaging Technology and Applications in Agriculture

Assessment of vegetation indices for regional crop green LAI estimation from Landsat images over multiple growing seasons

Retrieval of leaf area index from top-of-canopy digital photography over agricultural crops

Assessment of red-edge vegetation indices for crop leaf area index estimation

Estimating crop stresses, aboveground dry biomass and yield of corn using multi-temporal optical data combined with a radiation use efficiency model

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