04213nam 2201009z- 450 9910637794103321202212063-0365-5859-4(CKB)5470000001631595(oapen)https://directory.doabooks.org/handle/20.500.12854/94590(oapen)doab94590(EXLCZ)99547000000163159520202212d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierWearable Sensors Applied in Movement AnalysisBaselMDPI - Multidisciplinary Digital Publishing Institute20221 online resource (154 p.)3-0365-5860-8 Recent advances in electronics have led to sensors whose sizes and weights are such that they can be placed on living systems without impairing their natural motion and habits. They may be worn on the body as accessories or as part of the clothing and enable personalized mobile information processing. Wearable sensors open the way for a nonintrusive and continuous monitoring of body orientation, movements, and various physiological parameters during motor activities in real-life settings. Thus, they may become crucial tools not only for researchers, but also for clinicians, as they have the potential to improve diagnosis, better monitor disease development and thereby individualize treatment. Wearable sensors should obviously go unnoticed for the people wearing them and be intuitive in their installation. They should come with wireless connectivity and low-power consumption. Moreover, the electronics system should be self-calibrating and deliver correct information that is easy to interpret. Cross-platform interfaces that provide secure data storage and easy data analysis and visualization are needed.This book contains a selection of research papers presenting new results addressing the above challenges.Medical equipment and techniquesbicssc6 min walking testartificial intelligencebalance assessmentBayesian neural networkcamera systemcarvingcerebral palsychoreoathetosisdata augmentationdystoniaelderlyensemble clustering methodfall riskflex sensorfunctional walkinggated recurrent unitgesture recognitionhead rotation testhome-basedhuman activity recognitionIMUinertial measurement unitinertial measurement unit-IMUinertial sensorintermittent claudicationK-means clustering methodkinematicslifting techniquelogistic regressionlong-track speed skatinglow back painmachine learningMLPmodel searchmovement analysismovement complexityn/aneck painneural networkone-dimensional convolutional neural networkpain self-efficacy questionnaireprincipal component analysissample entropyscoringsupervised machine learningtrunk flexionTUGvalidityvascular rehabilitationward clustering methodwearablewearable deviceMedical equipment and techniquesBuisseret Fabienedt1290155Dierick FrédéricedtVan der Perre LiesbetedtBuisseret FabienothDierick FrédéricothVan der Perre LiesbetothBOOK9910637794103321Wearable Sensors Applied in Movement Analysis3021362UNINA03714nam 2201009z- 450 991055752000332120220111(CKB)5400000000044379(oapen)https://directory.doabooks.org/handle/20.500.12854/76465(oapen)doab76465(EXLCZ)99540000000004437920202201d2021 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierOptical Thin Films and StructuresDesign and Advanced ApplicationsBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20211 online resource (128 p.)3-0365-0892-9 3-0365-0893-7 The book is devoted to the design, application and characterization of thin films and structures, with special emphasis on optical applications. It comprises ten papers-five featured and five regular-authored by scientists all over the world. Diverse materials are studied and their possible applications are demonstrated and discussed-transparent conductive coatings and structures from ZnO doped with Al and Ga and Ti-doped SnO2, polymers and nanosized zeolite thin films for optical sensing, TiO2 with linear and nonlinear optical properties, organic diamagnetic materials, broadband optical coatings, CrWN glass molding coatings, and silicon on insulator waveguides.Optical Thin Films and Structures Research and information: generalbicsscTechnology: general issuesbicsscabsorption measurementAgAl-doped ZnOALD techniqueannealing temperaturebroadband designCrWN coatingsdepositionelectrical resistivityellipsometryfaraday rotationflexible PDLC deviceshardnesshumidity sensinglaser-induced deflectionLC displaylinear and non-linear optical propertiesmagneto-opticsmicrostructure evolutionmonitoringmultilayernonlinear refractionoptical coatingsoptical constantsoptical materialsoptical scattering lossoptical sensingoptical sensorsorganic diamagnetic materialsorganic materialplasma enhanced magnetron sputteringpoly(vinyl alcohol) copolymersresistancescatteringsidewall roughnesssilicon-on-insulator waveguidesingle wavelength ellipsometrySnO2spectroscopic ellipsometryspinodal decompositionstructureTCOthermal stabilitythin filmsTi-dopedtitanium dioxidetolane derivativestransmittancetransparent conductive coatingstransparent conductive layerstwo-photon absorptionzeolitesZnOResearch and information: generalTechnology: general issuesBabeva Tsvetankaedt1311498Babeva TsvetankaothBOOK9910557520003321Optical Thin Films and Structures3030347UNINA04378nam 2200925z- 450 991063999330332120251116142531.03-0365-6004-1(CKB)5470000001633420(oapen)https://directory.doabooks.org/handle/20.500.12854/95774(EXLCZ)99547000000163342020202301d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierAdvances in Methane Production from Coal, Shale and Other Tight RocksBaselMDPI - Multidisciplinary Digital Publishing Institute20221 electronic resource (188 p.)3-0365-6003-3 This collection reports on the state of the art in fundamental discipline application in hydrocarbon production and associated challenges in geoengineering activities. Zheng et al. (2022) report an NMR-based method for multiphase methane characterization in coals. Wang et al. (2022) studied the genesis of bedding fractures in Ordovician to Silurian marine shale in the Sichuan basin. Kang et al. (2022) proposed research focusing on the prediction of shale gas production from horizontal wells. Liang et al. (2022) studied the pore structure of marine shale by adsorption method in terms of molecular interaction. Zhang et al. (2022) focus on the coal measures sandstones in the Xishanyao Formation, southern Junggar Basin, and the sandstone diagenetic characteristics are fully revealed. Yao et al. (2022) report the source-to-sink system in the Ledong submarine channel and the Dongfang submarine fan in the Yinggehai Basin, South China Sea. There are four papers focusing on the technologies associated with hydrocarbon productions. Wang et al. (2022) reported the analysis of pre-stack inversion in a carbonate karst reservoir. Chen et al. (2022) conducted an inversion study on the parameters of cascade coexisting gas-bearing reservoirs in coal measures in Huainan. To ensure the safety CCS, Zhang et al (2022) report their analysis of available conditions for InSAR surface deformation monitoring. Additionally, to ensure production safety in coal mines, Zhang et al. (2022) report the properties and application of gel materials for coal gangue control.Technology: general issuesbicsscHistory of engineering & technologybicsscgel–foamchitosanacrylic acidcoal gangueInSAR monitoringcarbon capture and storagefeasibility assessment modellow-field NMRcoalfree methaneparamagnetic mineralsubmarine channelsubmarine fansource-to-sinkgas reservoirsSouth China SeaYinggehai Basinpore structureshale gasN2 adsorption experimentmolecular simulationpore connectivitytight sandstonecoal measuresouthern margin of Junggar basindiagenetic processreservoir quality controlreservoir formingcarbonate cavern reservoir applicationpre-stack inversionmodelgrey correlation methodmultiple linear regressionproduction evaluationmain control factorestimated ultimate recoverycoalbed methane (CBM)prestack seismic inversionbrittle indexgas-bearing propertyfracturescomplex fracture netformation of beddingFuling areaTechnology: general issuesHistory of engineering & technologyLi Yongedt960600Cui FanedtXu ChaoedtLi YongothCui FanothXu ChaoothBOOK9910639993303321Advances in Methane Production from Coal, Shale and Other Tight Rocks3023911UNINA