Preliminary results of the retrieval of the mean square slopes of the large-scale sea waves by the dual-frequency precipitation radar

Abstract Given the network of satellite and aircraft observations around the globe, do additional in situ observations impact analyses within a global forecast system? Despite the dense observational network at many levels in the tropical troposphere, assimilating additional sounding observations taken in the eastern tropical Pacific Ocean during the 2016 El Niño Rapid Response (ENRR) locally improves wind, temperature, and humidity 6-h forecasts using a modern assimilation system. Fields from a 50-km reanalysis that assimilates all available observations, including those taken during the ENRR, are compared with those from an otherwise-identical reanalysis that denies all ENRR observations. These observations reveal a bias in the 200-hPa divergence of the assimilating model during a strong El Niño. While the existing observational network partially corrects this bias, the ENRR observations provide a stronger mean correction in the analysis. Significant improvements in the mean-square fit of the first-guess fields to the assimilated ENRR observations demonstrate that they are valuable within the existing network. The effects of the ENRR observations are pronounced in levels of the troposphere that are sparsely observed, particularly 500–800 hPa. Assimilating ENRR observations has mixed effects on the mean-square difference with nearby non-ENRR observations. Using a similar system but with a higher-resolution forecast model yields comparable results to the lower-resolution system. These findings imply a limited improvement in large-scale forecast variability from additional in situ observations, but significant improvements in local 6-h forecasts.

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Realization of the Precise Point Positioning (PPP) technique and its accuracy

Geodesy and Cartography ◽

10.22389/0016-7126-2017-927-9-42-49 ◽

2017 ◽

Vol 927 (9) ◽

pp. 42-49

Author(s):

A.V. Voytenko

Keyword(s):

Precise Point Positioning ◽

Russian Language ◽

Convergence Time ◽

Practical Implementation ◽

Mean Square ◽

Dual Frequency ◽

Russian Scientist ◽

The Mean ◽

Point Positioning ◽

Mean Square Errors

The article notes that the replacement of the English name «Precise Point Positioning» (PPP) in Russian-language sources is possible using the term «accurate differential positioning» (TDP) technique. The author proposes to use both terms. This article contains information about the practical implementation of the PPP in the on-line service. The author has analyzed the research on the accuracy of PPP foreign and domestic experts and scholars. The author analyzed the data about the convergence time for PPP solutions. These data belong to another Russian scientist. The results of evaluating the accuracy of the PPP of different scientists led to the next. The author of this article gave the mean square errors topocentric coordinates of the geodetic points. The coordinates of the points must be obtained by dual-frequency GPS-measurements for a period of 24 hours with the help of PPP. The author proposed a formula for the calculation of the mean square error of the spatial position of geodetic point, if its position is obtained in the processing of dual-frequency GPS-observations of less than 24 hours. The article written conclusions about the features, defects and PPP development.

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Mineração de Dados Educacionais Visando a Identificação da Evasão no Ensino Superior

10.14210/cotb.v11n1.p461-468 ◽

2020 ◽

Author(s):

Guilherme Carminati ◽

Roberto Augusto ◽

Norberto Dallabrida ◽

Raimundo Teive

Keyword(s):

Data Mining ◽

Large Scale ◽

Engineering Students ◽

Educational Data Mining ◽

Private University ◽

Mean Value ◽

Educational Settings ◽

Preliminary Results ◽

The Mean

This paper tackles the problem of dropout of undergraduate studentsin a private university, by using Educational Data Mining(EDM) techniques. The EDM is an emerging area, concerned withdeveloping methods for exploring the increasingly large-scale datathat come from educational settings and using those methods tobetter understand students and the settings which they learn in. Inthis work, EDM is used to identify profiles of students who withdrawfrom their engineering courses. The considered dataset iscomposed of 53 attributes, involving financial and academic aspectsof 2,925 engineering students. Preliminary results have identifiedsome attributes that are related to the dropout in engineering courses,such as: the semester of the year (students are more prone todropout in the first half of the year), attendance, grades (in thiscase median is more important than the mean value) and numberof credits in the previous semester, and the current semester thestudent is enrolled (students bellow the 5th semester have a highertendency to dropout).

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MMSE Beamforming Design for IoT MIMO SWIPT System

Journal of Science and Technology Issue on Information and Communications Technology ◽

10.31130/jst.2018.69 ◽

2018 ◽

Vol 4 (1) ◽

pp. 28

Author(s):

Nguyen Duy Nhat Vien

Keyword(s):

Internet Of Things ◽

Human Services ◽

Large Scale ◽

Device Simulation ◽

Mean Square ◽

Wireless Devices ◽

The Mean ◽

Simulation Results ◽

Iot Devices ◽

Smart Infrastructure

Internet of Things (IoT) is a smart infrastructure of the unique identification device capable of wireless communication with each other, and human services on a large scale through the Internet. The IoT devices themselves must self-aware and harvest the energy they need from ambient sources. Simultaneous wireless information and power transfer (SWIPT) is a promising new solution to provide an opportunity for energy-restrained wireless devices to operate uninterruptedly. In this paper, we propose a beamforming approach for Internet of Things (IoT) multi-input multi-output (MIMO) SWIPT downlink systems, which minimizes the mean square error (MSE) of the information decode (ID) device while satisfying the energy constraint of the energy harvesting (EH) device. Simulation results are provided to evaluate the performance and confirm the efficiency of the proposed algorithm.

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Superdiffusive stochastic Fermi acceleration in space and energy

Monthly Notices of the Royal Astronomical Society ◽

10.1093/mnras/stz3259 ◽

2019 ◽

Vol 491 (3) ◽

pp. 3860-3869 ◽

Cited By ~ 4

Author(s):

N Sioulas ◽

H Isliker ◽

L Vlahos ◽

A Koumtzis ◽

Th Pisokas

Keyword(s):

Transport Properties ◽

Large Scale ◽

Mean Square Displacement ◽

High Energy ◽

Low Energy ◽

Mean Square ◽

Magnetic Fluctuations ◽

Fermi Acceleration ◽

The Mean ◽

High Energy Particles

ABSTRACT We analyse the transport properties of charged particles (ions and electrons) interacting with randomly formed magnetic scatterers (e.g. large-scale local ‘magnetic fluctuations’ or ‘coherent magnetic irregularities’ usually present in strongly turbulent plasmas), using the energization processes proposed initially by Fermi in 1949. The scatterers are formed by large-scale local fluctuations (δB/B ≈ 1) and are randomly distributed inside the unstable magnetic topology. We construct a 3D grid on which a small fraction of randomly chosen grid points are acting as scatterers. In particular, we study how a large number of test particles are accelerated and transported inside a collection of scatterers in a finite volume. Our main results are: (1) The spatial mean-square displacement <(Δr)2 > inside the stochastic Fermi accelerator is superdiffusive, $\lt (\Delta r)^2\gt \sim t^{a_{r}},$ with ar ∼ 1.2–1.6, for the high-energy electrons with kinetic energy (W) larger than 1 MeV, and it is normal (ar = 1) for the heated low-energy (W < 10 keV) electrons. (2) The transport properties of the high-energy particles are closely related with the mean-free path that the particles travel in-between the scatterers (λsc). The smaller λsc is, the faster the electrons and ions escape from the acceleration volume. (3) The mean displacement in energy $\lt \Delta W\gt \sim t^{a_{W}}$ is strongly enhanced inside the acceleration volume (aW = 1.5–2.5) for the high-energy particles compared to the thermal low-energy particles (aW = 0.4), i.e. high-energy particles undergo an enhanced systematic gain in energy. (4) The mean-square displacement in energy <W2 > is superdiffusive for the high-energy particles and normal for the low-energy, heated particles.

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Determination of the mean-square amplitude of a wave in a medium having large-scale inhomogeneities

Radiophysics and Quantum Electronics ◽

10.1007/bf01031632 ◽

1973 ◽

Vol 16 (8) ◽

pp. 950-953

Author(s):

A. A. Fraiman

Keyword(s):

Large Scale ◽

Mean Square ◽

The Mean

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A Closure Procedure for Random Vibration Parametric Resonances

Journal of Vibration and Control ◽

10.1177/1077546305049052 ◽

2005 ◽

Vol 11 (2) ◽

pp. 215-223 ◽

Cited By ~ 7

Author(s):

R. V. Bobryk ◽

A. Chrzeszczyk ◽

L. Stettner

Keyword(s):

Random Vibration ◽

Large Scale ◽

Narrow Band ◽

Numerical Approach ◽

Mean Square ◽

Moment Equations ◽

Single Degree Of Freedom ◽

Mean Square Stability ◽

Parametric Resonances ◽

The Mean

We investigate the mean-square stability for single-degree-of-freedom linear systems with random parametric excitation. The excitation is assumed to be of the form of a Gaussian stationary non-white process. We propose a new numerical approach to determine regions of parametric resonances based on a closure procedure for hierarchy of moment equations. Mean-square stability charts are obtained using the numerical analysis of eigenvalues for large-scale matrices. The results show three parametric resonances for narrow-band excitations.

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The Bordeaux Automatic Meridian Circle

International Astronomical Union Colloquium ◽

10.1017/s0252921100074170 ◽

1978 ◽

Vol 48 ◽

pp. 227-228

Author(s):

Y. Requième

Keyword(s):

Mean Square Error ◽

Mean Square ◽

Meridian Circle ◽

The Mean ◽

Full Automation

In spite of important delays in the initial planning, the full automation of the Bordeaux meridian circle is progressing well and will be ready for regular observations by the middle of the next year. It is expected that the mean square error for one observation will be about ±0.”10 in the two coordinates for declinations up to 87°.

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