Abstract
Spatial features retrieved from satellite data play an important role for improving crop classification. In this study, we proposed a deep-learning-based time-series analysis method to extract and organize spatial features to improve parcel-based crop classification using high-resolution optical images and multi-temporal synthetic aperture radar (SAR) data. Central to this method is the use of multiple deep convolutional networks (DCNs) to extract spatial features and to use the long short-term memory (LSTM) network to organize spatial features. First, a precise farmland parcel map was delineated from optical images. Second, hundreds of spatial features were retrieved using multiple DCNs from preprocessed SAR images and overlaid onto the parcel map to construct multivariate time-series of crop growth for parcels. Third, LSTM-based network structures for organizing these time-series features were constructed to produce a final parcel-based classification map. The method was applied to a dataset of high-resolution ZY-3 optical images and multi-temporal Sentinel-1A SAR data to classify crop types in the Hunan Province of China. The classification results, showing an improvement of greater than 5.0% in overall accuracy relative to methods without spatial features, demonstrated the effectiveness of the proposed method in extracting and organizing spatial features for improving parcel-based crop classification.
Highlights
Remote sensing techniques have long been an important means for agricultural monitoring, with their ability to quickly and efficiently collect information about spatial-temporal variability of farmlands and crops [1,2]
Based on the confusion matrix derived by comparing classified results to the test samples parcel by parcel, user’s accuracy (UA), producer’s accuracy (PA), overall accuracy (OA), kappa coefficient [46], and F1 scores [47] were retrieved to evaluate the accuracy of crop classification
The results suggest that, deep convolutional networks (DCNs) can learn very deep spatial features, it lowers the quality of the spatial resolution of feature maps
Summary
Remote sensing techniques have long been an important means for agricultural monitoring, with their ability to quickly and efficiently collect information about spatial-temporal variability of farmlands and crops [1,2]. In the field of remote-sensing time-series classification, a few studies [24,27,28] tried to introduce hybrid frameworks (e.g., the ConvLSTM network [28] and the FCN-LSTM network [24]) of DCNs and recurrent neural networks (RNNs) [29,30,31] to capture the spatial–temporal features of multi-temporal satellite data. These frameworks are pixel-based and hard to transfer to parcel-based crop classification. FFiirrsstt, mmuullttii--temporal Sentinel-1A SSAARRddaattaawweerreefifrisrtstpprorocecsessesdedtotoprpordoudcuecienitnentesnitsyitiymiamgaegs ewsiwthiVthHV, HVV, V, aVn,datnhde trhaetioraotfioVoHf VanHd aVnVd(VVVH/(VVVH)/bVaVn)dbs.anTdhse.nT, hperen-,trparien-etdraDinCedNsDwCeNres awpeprleieadpopnlieindteonnsitnyteimnsaigtyesimtoalgeeasrntoanledarenxtarnacdt emxutrlatic-tscmalueltsip-sactiaallefsepaatutiraelsfteoagtuerneesratotegfenateurareteimfeaagtuesrewiimthahguesndwrietdhshoufnbdarneddss. oSfecboanndd,sh. iSgehc-ornesdo,lhuitgiohnroepstoiclualtiiomnagoepstiwcaelreimfirasgteasuwtoemreatifciarslltyasuetgommeanttiecdal.lyThseeng,monenttheeds. eTghmeenn,taotnionthme aspe,gfmaremntlatnidonpamrcaepls, fwaremrelaidnednptiafirecdelsanwdesriemidpelinfiteifdie(donanthdesirimbpoulifnidedar(ioesn) tthoepirrobdoucnedafarriems)latnodpproadrcueclemfarpms.laTnhdirpda,rtcheel maupltsi.-tTemhiprdo,ratlhSeAmRufletai-ttuerme pimoraagleSsAwRerefefiatrustreoviemrlaagiedsownteorethfeirpsat rocevlemrlaaipdtonctoonsthtreucptapracercleml-baapsetdo ctiomnestsreurcitesp. aTrhceln-,btaismeed-steimriees sfeariteusr.esT(hinencl,utdimineg-sVeHrie, sVVfeaintuternesit(iiensc,launddinDgCVNH-b, aVseVd isnptaetniaslitfieast,uarneds) DwCerNe -obragsaendizsepdatainaldfceoamtubreins)edwienreanorLgSaTnMize-bdaasendd ccloamssbifiineredtoinpraonduLcSeTcMro-bpacsleadsscifilacsastiifoienrmtoapsr.oduce crop classification maps
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