08967nam 22024853a 450 991036775550332120250203235425.09783038976998303897699710.3390/books978-3-03897-699-8(CKB)4100000010106162(oapen)https://directory.doabooks.org/handle/20.500.12854/51489(ScCtBLL)fa75f2d1-6852-4899-bca9-4e560b98e2bf(OCoLC)1163838270(oapen)doab51489(EXLCZ)99410000001010616220250203i20192019 uu engurmn|---annantxtrdacontentcrdamediacrrdacarrierLearning to Understand Remote Sensing Images: Volume 2Qi WangMDPI - Multidisciplinary Digital Publishing Institute2019Basel, Switzerland :MDPI,2019.1 electronic resource (363 pages)9783038976981 3038976989 With the recent advances in remote sensing technologies for Earth observation, many different remote sensors are collecting data with distinctive properties. The obtained data are so large and complex that analyzing them manually becomes impractical or even impossible. Therefore, understanding remote sensing images effectively, in connection with physics, has been the primary concern of the remote sensing research community in recent years. For this purpose, machine learning is thought to be a promising technique because it can make the system learn to improve itself. With this distinctive characteristic, the algorithms will be more adaptive, automatic, and intelligent. This book introduces some of the most challenging issues of machine learning in the field of remote sensing, and the latest advanced technologies developed for different applications. It integrates with multi-source/multi-temporal/multi-scale data, and mainly focuses on learning to understand remote sensing images. Particularly, it presents many more effective techniques based on the popular concepts of deep learning and big data to reach new heights of data understanding. Through reporting recent advances in the machine learning approaches towards analyzing and understanding remote sensing images, this book can help readers become more familiar with knowledge frontier and foster an increased interest in this field.metadataimage classificationsensitivity analysisROI detectionresidual learningimage alignmentadaptive convolutional kernelsHough transformclass imbalanceland surface temperatureinundation mappingmultiscale representationobject-basedconvolutional neural networksscene classificationmorphological profileshyperedge weight estimationhyperparameter sparse representationsemantic segmentationvehicle classificationfloodLandsat imagerytarget detectionmulti-sensorbuilding damage detectionoptimized kernel minimum noise fraction (OKMNF)sea-land segmentationnonlinear classificationland useSAR imageryanti-noise transfer networksub-pixel change detectionRadon transformsegmentationremote sensing image retrievalTensorFlowconvolutional neural networkparticle swarm optimizationoptical sensorsmachine learningmixed pixeloptical remotely sensed imagesobject-based image analysisvery high resolution imagessingle stream optimizationship detectionice concentrationonline learningmanifold rankingdictionary learningurban surface water extractionsaliency detectionspatial attraction model (SAM)quality assessmentFuzzy-GA decision making systemland cover changemulti-view canonical correlation analysis ensembleland coversemantic labelingsparse representationdimensionality expansionspeckle filtershyperspectral imageryfully convolutional networkinfrared imageSiamese neural networkRandom Forests (RF)feature matchingcolor matchinggeostationary satellite remote sensing imagechange feature analysisroad detectiondeep learningaerial imagesimage segmentationaerial imagemulti-sensor image matchingHJ-1A/B CCDendmember extractionhigh resolutionmulti-scale clusteringheterogeneous domain adaptationhard classificationregional land coverhypergraph learningautomatic cluster number determinationdilated convolutionMSERsemi-supervised learninggateSynthetic Aperture Radar (SAR)downscalingconditional random fieldsurban heat islandhyperspectral imageremote sensing image correctionskip connectionISPRSspatial distributiongeo-referencingSupport Vector Machine (SVM)very high resolution (VHR) satellite imageclassificationensemble learningsynthetic aperture radarconservationconvolutional neural network (CNN)THEOSvisible light and infrared integrated cameravehicle localizationstructured sparsitytexture analysisDSFATNCNNimage registrationUAVunsupervised classificationSVMsSAR imagefuzzy neural networkdimensionality reductionGeoEye-1feature extractionsub-pixelenergy distribution optimizingsaliency analysisdeep convolutional neural networkssparse and low-rank graphhyperspectral remote sensingtensor low-rank approximationoptimal transportSELFspatiotemporal context learningModest AdaBoosttopic modellingmulti-seasonalSegment-Tree Filteringlocality informationGF-4 PMSimage fusionwavelet transformhashingmachine learning techniquessatellite imagesclimate changeroad segmentationremote sensingtensor sparse decompositionConvolutional Neural Network (CNN)multi-task learningdeep salient featurespecklecanonical correlation weighted votingfully convolutional network (FCN)despecklingmultispectral imageryratio imageslinear spectral unmixinghyperspectral image classificationmultispectral imageshigh resolution imagemulti-objectiveconvolution neural networktransfer learning1-dimensional (1-D)threshold stabilityLandsatkernel methodphase congruencysubpixel mapping (SPM)tensorMODISGSHHG databasecompressive sensingWang Qi646598ScCtBLLScCtBLLBOOK9910367755503321Learning to Understand Remote Sensing Images3024026UNINA03445nam 22009013a 450 991034667960332120250203235434.09783038979357303897935X10.3390/books978-3-03897-935-7(CKB)4920000000094871(oapen)https://directory.doabooks.org/handle/20.500.12854/56030(ScCtBLL)3d38fb3f-8d5a-47ab-86f4-c2f83d44618b(OCoLC)1117907930(oapen)doab56030(EXLCZ)99492000000009487120250203i20192019 uu engurmn|---annantxtrdacontentcrdamediacrrdacarrierPeroxiredoxin 6 as a Unique Member of the Peroxiredoxin FamilyAron B. FisherMDPI - Multidisciplinary Digital Publishing Institute2019Basel, Switzerland :MDPI,2019.1 electronic resource (152 p.)9783038979340 3038979341 The peroxiredoxin family was discovered approximately 30 years ago and is now recognized as one of the most important families of enzymes related to antioxidant defense and cellular signaling. Peroxiredoxin 6 shares the basic enzymatic functions that characterize this family, but also exhibits several unique and crucial activities. These include the ability to reduce phospholipid hydroperoxides, phospholipase A2 activity, and an acyl transferase activity that is important in phospholipid remodeling. This book describes the available models for investigating the unique functions of PRDX6 and its role in normal physiological function, as well its roles in the pathophysiology of diseases including cancer, diseases of the eye, and male fertility.MedicinebicsscNADPH (nicotinamide adenine dinucleotide phosphate) oxidasesperm capacitationphospholipid hydroperoxidecorneaperoxidasephospholipase A21-Cys Prdxknock-in mousedrug deliveryantioxidant activitysulfinic acidradioprotectionspermatozoaperoxiredoxin 6mass spectroscopic analysisknockout mousephospholipase A2 activityliposomesmitochondrial membrane potentiallipid peroxidationPLA2 activityionizing radiationglutathione peroxidasePeroxiredoxinPrdx6 structuremembrane repairsubstrate bindinginflammationreactive oxygen speciesPrdx6sulfonic/sulfinic acidFuchs' endothelial corneal dystrophyendotheliumfertilizationperoxidatic cysteinethioredoxin foldredox balancesurfactant protein Adiabetesoxidative stressMedicineFisher Aron B.1331910ScCtBLLScCtBLLBOOK9910346679603321Peroxiredoxin 6 as a Unique Member of the Peroxiredoxin Family3040640UNINA