LEADER 07777nam 2202209z- 450 001 9910372786503321 005 20231214133551.0 010 $a3-03928-053-8 035 $a(CKB)4100000010163761 035 $a(oapen)https://directory.doabooks.org/handle/20.500.12854/40321 035 $a(EXLCZ)994100000010163761 100 $a20202102d2020 |y 0 101 0 $aeng 135 $aurmn|---annan 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aAdvances in Near Infrared Spectroscopy and Related Computational Methods 210 $cMDPI - Multidisciplinary Digital Publishing Institute$d2020 215 $a1 electronic resource (496 p.) 311 $a3-03928-052-X 330 $aIn the last few decades, near-infrared (NIR) spectroscopy has distinguished itself as one of the most rapidly advancing spectroscopic techniques. Mainly known as an analytical tool useful for sample characterization and content quantification, NIR spectroscopy is essential in various other fields, e.g. NIR imaging techniques in biophotonics, medical applications or used for characterization of food products. Its contribution in basic science and physical chemistry should be noted as well, e.g. in exploration of the nature of molecular vibrations or intermolecular interactions. One of the current development trends involves the miniaturization and simplification of instrumentation, creating prospects for the spread of NIR spectrometers at a consumer level in the form of smartphone attachments?a breakthrough not yet accomplished by any other analytical technique. A growing diversity in the related methods and applications has led to a dispersion of these contributions among disparate scientific communities. The aim of this Special Issue was to bring together the communities that may perceive NIR spectroscopy from different perspectives. It resulted in 30 contributions presenting the latest advances in the methodologies essential in near-infrared spectroscopy in a variety of applications. 610 $apocket-sized spectrometer 610 $astandard germination tests 610 $atotal hydroxycinnamic derivatives 610 $ahyperspectral image 610 $aquantitative analysis modeling 610 $atissue 610 $achemotherapy 610 $aFTIR spectroscopy 610 $acheese 610 $abiomeasurements 610 $achemometrics 610 $aaffine invariance 610 $arapid identification 610 $abiodiagnosis 610 $abioanalytical applications 610 $afat 610 $aNIRS 610 $apixel-wise 610 $aparaffin-embedded 610 $alate preterm 610 $amaize kernel 610 $aphotonics 610 $ahyperspectral image processing 610 $aimage processing 610 $acolorectal cancer 610 $atest set validation 610 $adeep convolutional neural network 610 $anear-infrared fluorescence 610 $aclassification 610 $avariety discrimination 610 $anear-infrared hyperspectral imaging 610 $aensemble learning 610 $alight 610 $aorigin traceability 610 $aParis polyphylla var. yunnanensis 610 $aFourier transform mid-infrared spectroscopy 610 $adry matter 610 $aFourier transform infrared spectroscopy 610 $ahyperspectral imaging 610 $aFT-NIR spectroscopy 610 $aproximal sensing 610 $aperfusion measurements 610 $anear-infrared spectroscopy 610 $astained 610 $acarotenoids 610 $acellular imaging 610 $aperturbation 610 $adirect model transferability 610 $aclinical classifications 610 $acounterfeit and substandard pharmaceuticals 610 $ahyperspectral imaging technology 610 $aspectral imaging 610 $aSVM 610 $anutritional parameters 610 $aextra virgin olive oil 610 $aethanol 610 $aosteopathy 610 $aliving cells 610 $aobject-wise 610 $awater-mirror approach 610 $aChrysanthemum 610 $abootstrapping soft shrinkage 610 $aFTIR 610 $aPLS-R 610 $amultivariate data analysis 610 $acombination bands 610 $abinary dragonfly algorithm 610 $ageographical origin 610 $aVitis vinifera L. 610 $aglucose 610 $adetection 610 $adi-(2-picolyl)amine 610 $anon-destructive sensor 610 $asplanchnic 610 $aadulteration 610 $aanimal origin 610 $amelamine 610 $aartemether 610 $aMicroNIR? 610 $abrain 610 $afluorescent probes 610 $aFolin-Ciocalteu 610 $aSCiO 610 $asupport vector machine 610 $aanharmonic quantum mechanical calculations 610 $aPLSR 610 $aZn(II) 610 $aRMSEP 610 $aovertones 610 $ablackberries 610 $apasta/sauce blends 610 $aFT-IR 610 $apartial least squares calibration 610 $apartial least squares (PLS) 610 $aauxiliary diagnosis 610 $ahandheld near-infrared spectroscopy 610 $aprecision viticulture 610 $apartial least squares 610 $aseeds vitality 610 $afreeze-damaged 610 $anear infrared 610 $adiscriminant analysis 610 $acorn seed 610 $aquantum chemical calculation 610 $aanharmonic calculation 610 $aTrichosanthis Fructus 610 $amoisture 610 $aanalytical spectroscopy 610 $aRaman spectroscopy 610 $aNIR spectroscopy 610 $acalibration transfer 610 $aimaging 610 $awater 610 $alumefantrine 610 $aBRAF V600E mutation 610 $awavelength selection 610 $abone cancer 610 $aimaging visualization 610 $anear infrared spectroscopy 610 $araisins 610 $achemometric techniques 610 $adata fusion 610 $aprepared slices 610 $aEwing sarcoma 610 $abiomonitoring 610 $aRubus fructicosus 610 $aVIS/NIR hyperspectral imaging 610 $acombinations bands 610 $aquantitative analysis model 610 $apartial least square regression 610 $aDFT calculations 610 $aTreeBagger 610 $aantimalarial tablets 610 $aaccelerated aging 610 $aagriculture 610 $acrude drugs 610 $aspectroscopy 610 $arice seeds 610 $aPLS 610 $aisotopic substitution 610 $amultivariate calibration 610 $aphytoextraction 610 $aFourier-transform near-infrared spectroscopy 610 $aphenolics 610 $adeparaffinized 610 $anear-infrared (NIR) spectroscopy 610 $aSIMCA 610 $acounter propagation artificial neural network 610 $afructose 610 $aPLS-DA 610 $aultra-high performance liquid chromatography 610 $aaquaphotomics 610 $asupport vector machine-discriminant analysis 610 $ahier-SVM 610 $aDNA 610 $aNIR 610 $asupport vector machine model 610 $aAPI 610 $aprincipal component analysis 700 $aBec$b Krzysztof B$4auth$01323473 702 $aHuck$b Christian$4auth 906 $aBOOK 912 $a9910372786503321 996 $aAdvances in Near Infrared Spectroscopy and Related Computational Methods$93035594 997 $aUNINA