04142nam 2201285z- 450 991055729500332120210501(CKB)5400000000041089(oapen)https://directory.doabooks.org/handle/20.500.12854/69345(oapen)doab69345(EXLCZ)99540000000004108920202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierEmerging Sensor Technology in AgricultureBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 online resource (240 p.)3-03943-613-9 3-03943-614-7 Digital agriculture is gaining traction among scientists implementing different new and emerging sensor technologies to monitor complex soil-plant-atmosphere interactions in an accurate, cost-effective and user-friendly manner. This book presents some of the latest advances in this emerging area of research. The diversity of applications in which digital agriculture can make an important difference in day-to-day farming decision making makes this discipline an important focus of research internationally.GeographybicsscResearch & information: generalbicssc3D crop modelingacceleration sensoradaptive thresholdingairflow field testanimal detectionapple orchardsartificial intelligenceartificial neural networksbunch areabunch volumebushfirescapacitor sensorCFDCitrus sinensis L. Osbeckcluster morphologycocoa beanscolour thresholdingcomputer visioncrop growthdeep learningdeposit massdepth imagesethylene gas detectionformulationsfruit detectionfruit ripenessGaussian processesguarimage analysisimage processingimage segmentationinfraredinfrared thermographyionizationKinect sensorleaf area indexlogistic regressionmachine learningmechanical harvestingmeshmodeling and simulationmonitoring methodn/anear-infrared spectroscopynon-invasive sensing technologieson-ground sensingparameter acquisitionparameter tuningpartial least squarepesticide dropletsphenomicsphenotypephenotypingpigeon peapoint cloudpose estimationprecision livestockprecision viticultureproximal sensingremote sensingRGBRGB-Dsmoke taintsoybeanspectral sensorstresssupport vector machinesurface reconstructiontepary beanTriticum aestivumunmanned aerial vehiclesvibration timeVitiCanopy appvolatile compoundswater deficitGeographyResearch & information: generalFuentes Sigfredoedt1280644Poblete-Echeverria CarlosedtFuentes SigfredoothPoblete-Echeverria CarlosothBOOK9910557295003321Emerging Sensor Technology in Agriculture3018451UNINA01407nam 2200409Ia 450 991071113870332120240618235118.0GOVPUB-C13-2e086e0f0e51d761b19a858e7dbd70a5(CKB)5470000002480625(OCoLC)994300444(OCoLC)995470000002480625(EXLCZ)99547000000248062520170724d1956 ua 0engtxtrdacontentcrdamediacrrdacarrierMotorboat fire extinguisher evaluation /T.G. Lee ; H. Shoub ; J.M. CameroGaithersburg, MD :U.S. Dept. of Commerce, National Institute of Standards and Technology,1956.1 online resourceNBS report ;4326Contributed record: Metadata reviewed, not verified. Some fields updated by batch processes.September 22, 1956.Title from PDF title page (viewed February 22, 2017).Includes bibliographical references.Lee T. G1391279Cameron J. M128202Lee T. G1391279National Institute of Standards and Technology (U.S.)NBSNBSOCLCOOCLCQBOOK9910711138703321Motorboat fire extinguisher evaluation3487819UNINA