Search results for "Matemática Aplicada"

showing 10 items of 16 documents

Towards Understanding the Interconnection between Celestial Pole Motion and Earth’s Magnetic Field Using Space Geodetic Techniques

2021

The understanding of forced temporal variations in celestial pole motion (CPM) could bring us significantly closer to meeting the accuracy goals pursued by the Global Geodetic Observing System (GGOS) of the International Association of Geodesy (IAG), i.e., 1 mm accuracy and 0.1 mm/year stability on global scales in terms of the Earth orientation parameters. Besides astronomical forcing, CPM excitation depends on the processes in the fluid core and the core–mantle boundary. The same processes are responsible for the variations in the geomagnetic field (GMF). Several investigations were conducted during the last decade to find a possible interconnection of GMF changes with the length of day (…

010504 meteorology & atmospheric sciencesMotion (geometry)TP1-1185010502 geochemistry & geophysicsSpace (mathematics)01 natural sciencesBiochemistryArticleAnalytical ChemistryPhysics::Geophysicscelestial pole offsetCelestial polegeomagnetic fieldCelestial pole offsetVery-long-baseline interferometryElectrical and Electronic EngineeringInstrumentation0105 earth and related environmental sciencesPhysicsInterconnectionChemical technologyEuropean researchGeodetic datumMatemática AplicadaGeodesyAtomic and Molecular Physics and OpticsEarth's magnetic field13. Climate actionPhysics::Space Physicsddc:620VLBIGeomagnetic fieldSensors
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A new hybrid method to improve the ultra-short-term prediction of LOD

2019

Accurate, short-term predictions of Earth orientation parameters (EOP) are needed for many real-time applications including precise tracking and navigation of interplanetary spacecraft, climate forecasting, and disaster prevention. Out of the EOP, the LOD (length of day), which represents the changes in the Earth’s rotation rate, is the most challenging to predict since it is largely affected by the torques associated with changes in atmospheric circulation. In this study, the combination of Copula-based analysis and singular spectrum analysis (SSA) method is introduced to improve the accuracy of the forecasted LOD. The procedure operates as follows: First, we derive the dependence structur…

Angular momentum010504 meteorology & atmospheric sciencesComputer science010502 geochemistry & geophysics01 natural sciencesPhysics::GeophysicsCopula (probability theory)Geochemistry and Petrologyddc:550Day lengthTorqueEOPComputers in Earth SciencesLODSingular spectrum analysis0105 earth and related environmental sciencesEarth Orientation ParametersMatemática AplicadaGeophysicsCopula-based analysis13. Climate actionInterplanetary spacecraftOriginal ArticlePredictionHybrid modelAlgorithmJournal of Geodesy
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Teoría de sistemas (2008/09)

2008

Conceptos fundamentales de la Teoría general de sistemas. Nociones básicas de estadística. Modelos cibernéticos. Sistemas caóticos.Asignatura optativa de Ciencias Ambientales. Primer ciclo. Segundo curso. Cuatrimestral: 6 créditos.

CienciasMatemática AplicadaCaosSistemasSimulaciónOptimizaciónOCWUNESCO::MATEMÁTICAS
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Polar motion prediction using the combination of SSA and Copula-based analysis

2018

The real-time estimation of polar motion (PM) is needed for the navigation of Earth satellite and interplanetary spacecraft. However, it is impossible to have real-time information due to the complexity of the measurement model and data processing. Various prediction methods have been developed. However, the accuracy of PM prediction is still not satisfactory even for a few days in the future. Therefore, new techniques or a combination of the existing methods need to be investigated for improving the accuracy of the predicted PM. There is a well-introduced method called Copula, and we want to combine it with singular spectrum analysis (SSA) method for PM prediction. In this study, first, we…

Earth satellite010504 meteorology & atmospheric scienceslcsh:GeodesyPolar motion010502 geochemistry & geophysics01 natural sciencesCopula (probability theory)Prediction methodsddc:550Applied mathematicsEOPSSASingular spectrum analysis0105 earth and related environmental sciencespolar motionData processinglcsh:QB275-343Full Paperlcsh:QE1-996.5lcsh:Geography. Anthropology. RecreationGeologyInternational Earth Rotation and Reference Systems ServiceMatemática Aplicadaprediction550 Geowissenschaftenlcsh:Geologylcsh:GCopulaSpace and Planetary SciencePolar motionPredictionHybrid modelEarth, Planets and Space
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The electromagnetic and Proca fields revisited: A unified quantization

1997

Quantizing the electromagnetic field with a group formalism faces the difficulty of how to turn the traditional gauge transformation of the vector potential, Aμ(x) → Aμ(x) + ∂μφ(x), into a group law. In this paper, it is shown that the problem can be solved by looking at gauge transformations in a slightly different manner which, in addition, does not require introducing any BRST-like parameter. This gauge transformation does not appear explicitly in the group law of the symmetry but rather as the trajectories associated with generalized equations of motion generated by vector fields with null Noether invariants. In the new approach the parameters of the local group, U(1)(x, t), acquire dyn…

Electromagnetic fieldPhysicsHigh Energy Physics - TheoryNuclear and High Energy PhysicsPhotonQuantization (signal processing)Equations of motionFOS: Physical sciencesAstronomy and AstrophysicsMatemática AplicadaCampos electromagnéticosCampos electromagnéticos ProcaAtomic and Molecular Physics and OpticsCuantización unificadasymbols.namesakeHigh Energy Physics - Theory (hep-th)Proca Cuantización unificadasymbolsVector fieldGauge theoryNoether's theoremMathematical physicsVector potential
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A new method to improve the prediction of the celestial pole offsets

2018

Knowledge of the Earth’s changing rotation is fundamental to positioning objects in space and on the planet. Nowadays, the Earth’s orientation in space is expressed by five Earth Orientation Parameters (EOP). Many applications in astronomy, geosciences, and space missions require accurate EOP predictions. Operational predictions are released daily by the Rapid Service/Prediction Centre of the International Earth Rotation and Reference Systems Service (IERS). The prediction procedures and performances differ for the three EOP classes: polar motion, rotation angle (UT1-UTC), and the two celestial pole offsets (CPO), dX and dY. The IERS Annual Report 2016 shows Rapid Service CPO predictions er…

Free Core NutationEarth Orientation Parameterslcsh:Rlcsh:MedicineMatemática Aplicadalcsh:QCelestial Pole OffsetsPredictionlcsh:ScienceArticleScientific Reports
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Métodos numéricos para ingeniería química (2008/09)

2008

Ingeniería QuímicaintegraciónIngenieria y ArquitecturaCienciasinterpolaciónAproximaciónMatemática AplicadaOCWUNESCO::MATEMÁTICAS
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Multi-Season Phenology Mapping of Nile Delta Croplands Using Time Series of Sentinel-2 and Landsat 8 Green LAI

2022

Space-based cropland phenology monitoring substantially assists agricultural managing practices and plays an important role in crop yield predictions. Multitemporal satellite observations allow analyzing vegetation seasonal dynamics over large areas by using vegetation indices or by deriving biophysical variables. The Nile Delta represents about half of all agricultural lands of Egypt. In this region, intensifying farming systems are predominant and multi-cropping rotations schemes are increasing, requiring a high temporal and spatial resolution monitoring for capturing successive crop growth cycles. This study presents a workflow for cropland phenology characterization and mapping based on…

Landsat 8Land surface phenologyGreen leaf area indexgreen leaf area index; Sentinel-2; Landsat 8; land surface phenology; Gaussian Process Regression (GPR); time series analysisGaussian Process Regression (GPR)Time series analysisGeneral Earth and Planetary SciencesMatemática AplicadaSentinel-2Remote Sensing
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A First Assessment of the Corrections for the Consistency of the IAU2000 and IAU2006 Precession-Nutation Models

2020

The Earth precession-nutation model endorsed by resolutions of each the International Astronomical Union and the International Union of Geodesy and Geophysics is composed of two theories developed independently, namely IAU2006 precession and IAU2000A nutation. The IAU2006 precession was adopted to supersede the precession part of the IAU 2000A precession-nutation model and tried to get the new precession theory dynamically consistent with the IAU2000A nutation. However, full consistency was not reached, and slight adjustments of the IAU2000A nutation amplitudes at the micro arcsecond level were required to ensure consistency. The first set of formulae for these corrections derived by Capita…

PhysicsEarth rotation theoryEarth Orientation ParametersEarth rotation modelsConsistency (statistics)NutationPrecessionMatemática AplicadaEarth orientation parametersGeodesyPrecession-nutation
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Algebraic Quantization, Good Operators and Fractional Quantum Numbers

1995

The problems arising when quantizing systems with periodic boundary conditions are analysed, in an algebraic (group-) quantization scheme, and the ``failure" of the Ehrenfest theorem is clarified in terms of the already defined notion of {\it good} (and {\it bad}) operators. The analysis of ``constrained" Heisenberg-Weyl groups according to this quantization scheme reveals the possibility for new quantum (fractional) numbers extending those allowed for Chern classes in traditional Geometric Quantization. This study is illustrated with the examples of the free particle on the circumference and the charged particle in a homogeneous magnetic field on the torus, both examples featuring ``anomal…

PhysicsGeometric quantizationHigh Energy Physics - TheoryFree particleQuantization (signal processing)FOS: Physical sciencesStatistical and Nonlinear PhysicsMatemática Aplicada81S1081R99Ehrenfest theoremQuantum number58F06High Energy Physics - Theory (hep-th)Fractional quantum Hall effectCuantización algebraicaCuántica de números fraccionadosAlgebraic numberQuantumMathematical PhysicsMathematical physics
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