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257 results on '"Spatial average"'

1. Stability and bifurcation analysis in a diffusive predator–prey model with delay and spatial average.

Author

Song, Yongli and Shi, Qingyan

Subjects
*BIFURCATION diagrams, *HOPF bifurcations, *NEUMANN boundary conditions, *PREDATION, *SPATIAL systems
Abstract

In this paper, we study the effect of spatial average and time delay on the dynamics of a diffusive predator–prey model under the Neumann boundary condition. Compared to the model without spatial average, the delay‐induced Hopf bifurcation at the first critical value of delay is nonhomogeneous due to the joint effects of spatial average and delay, and spatiotemporal patterns arise. Also, we show that the spatially homogeneous and nonhomogeneous periodic patterns may switch for different bifurcation parameter values. Moreover, a double Hopf bifurcation occurs at the intersection point of the homogeneous and nonhomogeneous Hopf bifurcation curves, and spatially nonhomogeneous quasi‐periodic patterns can be observed via numerical simulations near the double Hopf bifurcation point. The normal form algorithm for the spatially nonhomogeneous/homogeneous Hopf bifurcation is derived for a general reaction‐diffusion system with spatial average and delay. [ABSTRACT FROM AUTHOR]

Published
2023
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2. Normal forms of double Hopf bifurcation for a reaction-diffusion system with delay and nonlocal spatial average and applications.

Author

Wu, Shuhao, Song, Yongli, and Shi, Qingyan

Subjects
*HOPF bifurcations, *POLLEN tube, *SPATIAL systems, *BIOLOGICAL models, *COMPUTER simulation
Abstract

In this paper, we are concerned with a reaction-diffusion model incorporating delay and nonlocal effects. The normal form of double Hopf bifurcation is derived. The diffusive model of pollen tube tip growth is discussed and numerical simulations show that spatially homogeneous and inhomogeneous periodic solutions can be both stable or connected by a heteroclinic orbit under certain conditions. In addition, the diffusive Lotka-Volterra model with delay and nonlocality is considered and spatially inhomogeneous quasi-periodic solution is obtained. • Derive the algorithm of normal form of double Hopf bifurcation for reaction-diffusion system with delay and spatial average. • Investigate the dynamics near the double Hopf bifurcation point for two biological models. • Find bistability of homogeneous and inhomogeneous periodic solutions and pattern transitions for pollen tube tip growth model. • Find stable inhomogeneous quasi-periodic solutions and pattern transitions of periodic and quasi-periodic solutions for Lotka-Volterra model. [ABSTRACT FROM AUTHOR]

Published
2022
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3. Variational Multiple Warping for Cardiac Image Analysis

Author

Inagaki, Shun, Itoh, Hayato, Imiya, Atsushi, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Azzopardi, George, editor, and Petkov, Nicolai, editor

Published
2015
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4. Multiple Alignment of Spatiotemporal Deformable Objects for the Average-Organ Computation

Author

Inagaki, Shun, Itoh, Hayato, Imiya, Atsushi, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Agapito, Lourdes, editor, Bronstein, Michael M., editor, and Rother, Carsten, editor

Published
2015
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5. Measurement method of reverberation field reciprocity parameter

Author

SUN Jundong, SHANG Dajing, and SUN Xiaoyue

Subjects
reverberation field, reciprocity parameter, spatial average, reverberation radius, Naval architecture. Shipbuilding. Marine engineering, VM1-989
Abstract

This paper presents a method for measuring the reciprocity parameter based on the free field. It is able to achieve accurate measurement of the reverberation constant in a narrow band. The method uses the same transmitting and receiving system, and keeps the same set of parameters to measure the open circuit voltage output under different frequencies in a free field. The open circuit output voltage is measured through average technology in the reverberation control region, then the reverberation radius is calculated and the reciprocity constant obtained. This method uses a single frequency signal and the spatial averaging technique. It is simple, convenient and not suitable for complex measuring instruments. The validity of the method is verified by comparing the measured results with the reverberation time measurement.

Published
2017
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6. Uncertainty in spatial average undrained shear strength with a site-specific transformation model.

Author

van der Krogt, M. G., Schweckendiek, T., and Kok, M.

Subjects
SHEAR strength, MEASUREMENT errors, STATISTICAL measurement, UNCERTAINTY, STATISTICAL errors, RANDOM variables
Abstract

Transformation models are used to infer geotechnical properties from indirect measurements. A site-specific transformation model can be calibrated with direct and indirect measurements from a site. When such a model is used, then spatial variability, measurement errors and statistical uncertainty propagate into the uncertainty of the spatial average, which is the variable of interest in most geotechnical analyses. This research shows how all components enter the total uncertainty of a transformation model for undrained shear strength from cone resistance. A method is proposed to estimate the uncertainty in the spatial average undrained shear strength, particularly focusing on the role of averaging of all spatially variable error components. The main finding is that if a considerable share of the measurement and transformation errors is random or spatially variable, the uncertainty estimates can be considerably lower compared to methods proposed earlier, and hence, characteristic values can be considerably higher. [ABSTRACT FROM AUTHOR]

Published
2019
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7. A Representativeness Assessment of the Angell–Korshover 63-Station Network Sampling Based on Reanalysis Temperature Data.

Author

Shen, Samuel S. P.

Subjects
GEOMETRIC distribution, EARTH stations, TEMPERATURE, SEARCH algorithms, SPHERES
Abstract

Global climate observations from ground stations require an evaluation of the effectiveness of a station network, which is often an assessment of the geometric distribution of n points on a sphere. The representativeness of the Angell–Korshover 63-station network (AK-network) is assessed in this paper. It is shown that AK-network can effectively sample the January global average temperature data of the NCEP/NCAR Reanalysis from 1948 to 2015 when estimating inter-decadal variations, but it has large uncertainties for estimating linear trends. This paper describes a method for the assessment, and also includes an iterative numerical algorithm used to search for the locations of 63 uniformly distributed stations, named U63. The results of AK-63 and U63 are compared. The Appendix explains a problem of searching for the optimal distribution of n points on a unit sphere in three-dimensional space under the condition of the maximum sum of the mutual distances among the points. The core R code for finding U63 is included. The R code can generate various interesting configurations for different n , among which one is particularly surprising: The configuration of 20 points is not a dodecahedron although the configurations for n = 4 , 6 , 8 , and 12 are tetrahedron, octahedron, cube, and icosahedron, respectively. [ABSTRACT FROM AUTHOR]

Published
2019
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9. Spatial average for the solution to the heat equation with Rosenblatt noise

Author

Ciprian A. Tudor and Rémi Dhoyer

Subjects
Statistics and Probability, Statistics::Theory, Distribution (mathematics), Applied Mathematics, Mathematical analysis, Spatial average, Heat equation, Limit (mathematics), Statistics, Probability and Uncertainty, Cumulant, Noise (electronics), Mathematics
Abstract

We consider the stochastic heat equation driven by a Rosenblatt sheet and we study the limit behavior in distribution of the spatial average of the solution. By analyzing the cumulants of the solut...

Published
2021
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11. Analysis of Time Domain Information for Footstep Recognition

Author

Vera-Rodriguez, R., Mason, J. S. D., Fierrez, J., Ortega-Garcia, J., Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Nierstrasz, Oscar, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Sudan, Madhu, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Vardi, Moshe Y., Series editor, Weikum, Gerhard, Series editor, Bebis, George, editor, Boyle, Richard, editor, Parvin, Bahram, editor, Koracin, Darko, editor, Chung, Ronald, editor, Hammoud, Riad, editor, Hussain, Muhammad, editor, Kar-Han, Tan, editor, Crawfis, Roger, editor, Thalmann, Daniel, editor, Kao, David, editor, and Avila, Lisa, editor

Published
2010
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14. Macroscopic Electromagnetics

Author

Rhodes, William T., editor, Adibi, Ali, editor, Asakura, Toshimitsu, editor, Hänsch, Theodor W., editor, Kamiya, Takeshi, editor, Krausz, Ferenc, editor, Monemar, Bo, editor, Venghaus, Herbert, editor, Weber, Horst, editor, Weinfurter, Harald, editor, and Oughstun, Kurt E.

Published
2007
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15. Multiple Motion Estimation Using Channel Matrices

Author

Forssén, Per-Erik, Spies, Hagen, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Rangan, C. Pandu, editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Doug, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Jähne, Bernd, editor, Mester, Rudolf, editor, Barth, Erhardt, editor, and Scharr, Hanno, editor

Published
2007
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16. Reliability of Laterally Loaded Rigid Piles

Author

Pula, Wojciech, Maier, Giulio, editor, Salençon, Jean, editor, Schneider, Wilhelm, editor, Schrefler, Bernhard, editor, Serafini, Paolo, editor, Griffiths, D. V., editor, and Fenton, Gordon. A., editor

Published
2007
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22. Estimating Spatial Averages of Environmental Parameters Based on Mobile Crowdsensing.

Author

KOUKOUTSIDIS, IOANNIS

Subjects
CROWDSOURCING, CELL phones, RANDOMIZATION (Statistics), STATISTICS, ESTIMATION theory
Abstract

Mobile crowdsensing can facilitate environmental surveys by leveraging sensor-equipped mobile devices that carry out measurements covering a wide area in a short time without bearing the costs of traditional field work. In this article, we examine statistical methods to perform an accurate estimate of the mean value of an environmental parameter in a region based on such measurements. The main focus is on estimates produced by considering the mobile device readings at a random instant in time. We compare stratified sampling with different stratification weights to sampling without stratification as well as an appropriately modified version of systematic sampling. Our main result is that stratification with weights proportional to stratum areas can produce significantly smaller bias for a moderate number of strata and gets arbitrarily close to the true area average as the number of mobiles increases. The performance of the methods is evaluated for an application scenario where we estimate the mean area temperature in a linear region that exhibits the so-called Urban Heat Island effect, with mobile users moving in the region according to the Random Waypoint Model. [ABSTRACT FROM AUTHOR]

Published
2017
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24. Introduction

Author

Daly, Charles J., Rao, Navalgund A. H. K., Daly, Charles J., and Rao, Navalgund A. H. K.

Published
2000
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31. Polarization-based intensity correlation of a depolarized speckle pattern

Author

Maruthi M. Brundavanam and Abhijit Roy

Subjects
Physics, Correlation, Speckle pattern, Distribution (mathematics), Optics, business.industry, Range (statistics), Spatial average, Polarization (waves), business, Atomic and Molecular Physics, and Optics, Intensity (physics)
Abstract

A different kind of intensity correlation, denoted as polarization-based intensity correlation (PBIC), is proposed and demonstrated to investigate the correlation between different polarizations of a depolarized speckle pattern (DSP), which has non-uniform spatial polarization distribution. It is shown both theoretically and experimentally that the range of the PBIC for any polarization of the DSP depends on the spatial average intensity of the speckles corresponding to that particular polarization. The experimentally determined nature of the change of the range of the PBIC for different polarization components, due to the variation in the average intensity, is found to be matching well with the theoretical prediction. The existence of non-zero correlation between two orthogonally polarized speckle patterns, filtered from a partially DSP, is also observed. This study may be useful in exploiting the PBIC for different applications such as speckle cryptography.

Published
2021

32. Effect of Incidence Angle on the Spatial-Average of Incident Power Density Definition to Correlate Skin Temperature Rise for Millimeter Wave Exposures

Author

Akimasa Hirata, Yinliang Diao, Walid El Hajj, Kun Li, Ilkka Laakso, Sachiko Kodera, Kensuke Sasaki, South China Agricultural University, Kagawa University, Japan National Institute of Information and Communications Technology, Nagoya Institute of Technology, Department of Electrical Engineering and Automation, Intel, Aalto-yliopisto, and Aalto University

Subjects
Physics, standardization, skin model, Spatial average, Skin temperature, Physics::Optics, incident power density, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Computational physics, law.invention, millimeter wave exposure, Incident power density, Electromagnetic safety, law, Extremely high frequency, Poynting vector, temperature rise, Dipole antenna, Electrical and Electronic Engineering, Antenna (radio), Incidence (geometry)
Abstract

Publisher Copyright: © 1964-2012 IEEE. This article reports on an intercomparison study on the effect of the incidence angle on the spatial average of incident power density (PD) and resultant temperature rise using computational and thermographic measurement approaches. Two definitions of the spatial average of incident PD - the peak spatial-average normal component of the Poynting vector and peak spatial-average norm of the Poynting vector - were compared. First, an intercomparison of incident PD and temperature rise in a layered skin model was conducted for a 4 × 4 dipole array antenna. The variations caused by antenna type, antenna-body distance, and skin model to these definitions were then discussed. The results revealed that both definitions are in good agreement and correlate with the peak temperature rise for small or moderate incidence angles. The heating factor was enhanced for transverse-magnetic-like polarized waves for peak spatial-average normal component of the Poynting vector for large-angle incidences because of the Brewster effect. The normal incidence scenario was confirmed to be essential for considering the peak skin temperature rise.

Published
2021

34. On characterizing spatially variable soil shear strength using spatial average.

Author

Ching, Jianye, Hu, Yu-Gang, and Phoon, Kok-Kwang

Subjects
*SHEAR strength of soils, *FINITE element method, *SHEAR strength, *MECHANICAL strength of condensed matter, *NUMERICAL analysis
Abstract

The purpose of this study is to examine in more detail under what conditions would spatial averaging over some prescribed region be sufficient to reproduce the response statistics arising from a spatially variable field. The spatially variable undrained shear strength is first simulated by a random field, and the actual response of a spatially variable clay in three problems (soil column, retaining wall, shallow foundation) is simulated using the random finite element method. This actual response is then compared to the spatial average response (the response of a homogeneous clay whose undrained shear strength is equal to certain spatial average). It is observed that the actual response can be well approximated by the spatial average response only for situations where the critical slip curve is constrained. This constraint is the most significant for the retaining wall and the least significant for the soil column. [ABSTRACT FROM AUTHOR]

Published
2016
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35. Optimal sampling designs for nonparametric estimation of spatial averages of random fields.

Author

Benhenni, Karim and Su, Yingcai

Subjects
*STATISTICAL sampling, *NONPARAMETRIC estimation, *RANDOM fields, *OPTIMAL designs (Statistics), *ANALYSIS of covariance
Abstract

Optimal designs of sampling spatial locations in estimating spatial averages of random fields are considered. The random field is assumed to have correlated values according to a covariance function. The quality of estimation is measured by the mean squared error. Simple nonparametric linear estimators along with sampling designs having a limiting density are considered. For a large class of locally isotropic random fields, we argue for the asymptotic optimality of simple linear estimators. The convergent rates of the mean squared error and optimal limiting densities of sampling designs are determined in every dimension. An example of simulation is given. [ABSTRACT FROM AUTHOR]

Published
2016
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37. شکل دولة جنوب السودان: دراسة تحلیلیة فی جغرافیة القوة

Subjects
Botany, Spatial average, Mathematics
Abstract

تکمن أهمية دراسة موضوع شکل الدولة في جنوب السودان في إجراء تحليلات مکانية باستخدام بعض المقاييس الإحصائية المعتمدة على تقنية نظم المعلومات الجغرافية لتحديد شکل الدولة من حيث خاصيتي الاندماج والاستطالة، بغرض التعرف على مدي تماسک المنطقة السياسية لدولة جنوب السودان واتصال أجزائها بعضها البعض، وعرض للانبعاجات والنتوءات التي تنتاب شکل الدولة، ودراسة العاصمة وعوامل اختيارها. وفي سبيل تحقيق ذلک اتبع الباحث المنهج الوصفي فضلا عن المدخل الوظيفي، إضافة إلى إتباع الأسلوب الکمي والکارتوجرافي المعتمد على برمجيات نظم المعلومات الجغرافية من خلال استخدام التوزيعات المکانية في برنامج ArcGIS 10.6.1لتحليل البيانات المکانية، بتطبيق أسلوب المرکز الجغرافي المتوسط والمتوسط المکاني الفعلي والوسيط الجغرافي وتحليل صلة الجوار، وتحليل کيرنل، فضلا عن تصميم مجموعة من الخرائط والأشکال البيانية التي تساعد على عرض وإظهار نتيجة البحث. وأظهرت النتائج أن الشکل في دولة جنوب السودان يشوبه الکثير من المثالب؛ إذ تبتعد الدولة عن الشکل المندمج وتقترب من شکل المعين على مقياس بويس-کلارک، مما يعوق الدولة عن أداء وظائفها ويضعف من قوتها ووزنها السياسي، ولا تتوفر في العاصمة جوبا القواعد الجيوبوليتيکية لاختيار العواصم. الکلمات المفتاحية: شکل الدولة، جنوب السودان، الانبعاجات والنتوءات، العاصمة، نظم المعلومات الجغرافية Abstract The importance of studying the Shape of the state in South Sudan is to conduct spatial analyzes using some statistical measures based on GIS technology to determine the shape of the state in terms of Compactness and Elongation characteristics, in order to identify the cohesion of the political area of ​​the state of Southern Sudan and the connection of its parts to each other, and to show the Indentations and Prominences that exist in the Shape of the State. the study of the capital and its selection factors. In order to achieve this, the researcher followed the descriptive Method as well as the functional approach, in addition to the quantitative and cartographic method based on GIS software through the use of spatial distributions in ArcGIS 10.6.1 to analyze the spatial data, applying the method of geographic average medium and spatial average and geographic medium Neighboring and Kernel density, as well as designing a set of maps and graphs that help display and show the search result.

Published
2019
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38. A National Nitrogen Target for Germany

Author

Martin Bach, Jürg Heldstab, Lutz Breuer, Bettina Schäppi, Laura Klement, Uwe Häußermann, Judith Reutimann, Markus Geupel, and Lukas Knoll

Subjects
inorganic chemicals, 010504 meteorology & atmospheric sciences, Reactive nitrogen, Geography, Planning and Development, Spatial average, chemistry.chemical_element, TJ807-830, reactive nitrogen, 010501 environmental sciences, Management, Monitoring, Policy and Law, TD194-195, 01 natural sciences, nitrogen, Renewable energy sources, emission ceiling, Environmental protection, parasitic diseases, National level, GE1-350, Nitrogen cycle, 0105 earth and related environmental sciences, Public awareness, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, food and beverages, Nitrogen, Environmental sciences, chemistry, Environmental science, planetary boundary, Annual loss
Abstract

The anthropogenic nitrogen cycle is characterized by a high complexity. Different reactive nitrogen species (NH3, NH4+, NO, NO2, NO3&minus, and N2O) are set free by a large variety of anthropogenic activities and cause numerous negative impacts on the environment. The complex nature of the nitrogen cycle hampers public awareness of the nitrogen problem. To overcome this issue and to enhance the sensitivity for policy action, we developed a new, impact-based integrated national target for nitrogen (INTN) for Germany. It is based on six impact indicators, for which we derived the maximum amount of nitrogen losses allowed in each environmental sector to reach related state indicators on a spatial average for Germany. The resulting target sets a limit of nitrogen emissions in Germany of 1053 Gg N yr&minus, 1. It could serve as a similar means on the national level as the planetary boundary for reactive nitrogen or the 1.5 &deg, C target of the climate community on the global level. Taking related uncertainties into account, the resulting integrated nitrogen target of 1053 Gg N yr&minus, 1 suggests a comprehensible INTN of 1000 Gg N yr&minus, 1 for Germany. Compared to the current situation, the overall annual loss of reactive nitrogen in Germany would have to be reduced by approximately one-third.

Published
2021

39. Does the cosmological constant stay hidden?

Author

Oliver F. Piattella

Subjects
Physics, Cosmological constant, Planck scale, Differential equation, Scalar (mathematics), High Energy Physics::Phenomenology, Time evolution, Spatial average, FOS: Physical sciences, General Relativity and Quantum Cosmology (gr-qc), General Relativity and Quantum Cosmology, symbols.namesake, symbols, Mathematical physics
Abstract

We elaborate on the proposal of [Phys. Rev. Lett. 123 (2019) 13, 131302], about the possibility of hiding the cosmological constant in the complicated topology that one expects to exist at the Planck scale. We build a differential equation ruling the time evolution of $\langle K\rangle$, the spatial average of the expansion scalar. Supposing that the solution $\langle K\rangle = 0$ exists despite the presence of a large cosmological constant $\Lambda$, we show that such solution seems to be unstable., Comment: 15 pages, 1 figure

Published
2020

40. Effective Young’s modulus of a spatially variable soil mass under a footing

Author

Jianye Ching, Kok-Kwang Phoon, and Yu-Gang Hu

Subjects
Soil mass, Random field, Mathematical analysis, 0211 other engineering and technologies, Spatial average, Modulus, 020101 civil engineering, Young's modulus, 02 engineering and technology, Building and Construction, Homogenization (chemistry), Finite element method, 0201 civil engineering, symbols.namesake, Homogeneous, symbols, Safety, Risk, Reliability and Quality, 021101 geological & geomatics engineering, Civil and Structural Engineering, Mathematics
Abstract

This study investigates the possibility of representing the effective Young’s modulus (Eeff) for a footing problem supported on a spatially variable medium - the Young’s modulus actually “felt” by the footing - using a spatial average. The Eeff is simulated by a homogenization procedure that matches the responses between a random finite element analysis (RFEA) and a homogeneous finite element analysis. Emphasis is placed on whether the spatial average can well represent the numerical value of Eeff in each spatially varying realization, not just the statistics of Eeff within an ensemble (a weaker requirement). It is found that the conventional spatial averaging model that treats all soil regions equally important cannot satisfactorily represent Eeff. Extensive numerical results show that the concept of “mobilization” is essential: highly mobilized soil regions close to the footing should be given larger weights than non-mobilized remote regions. Moreover, the non-uniform weights can be prescribed prior to RFEA, that is, they do not depend on the specific response corresponding to a specific random field realization. The “prescribed mobilization” for the spatially variable Young’s modulus can be contrasted with the “emergent” mobilized shear strength in a spatially variable medium that results from the emergent nature of the critical failure path – it cannot be predicted prior to random finite element analysis. A key contribution of this paper is the development of a simple method based on the “pseudo incremental energy” to estimate the non-uniform weights for the spatial averaging using a single run of a homogeneous finite element analysis.

Published
2018
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41. Analysis of the relationship between urban size and heat island intensity using WRF model

Author

Hideki Takebayashi and Masashi Senoo

Subjects
Meso-scale, Atmospheric Science, 010504 meteorology & atmospheric sciences, WRF, Geography, Planning and Development, Spatial average, 010501 environmental sciences, Environmental Science (miscellaneous), Urban size, 01 natural sciences, Heat island intensity, Urban Studies, Meso scale, Climatology, Weather Research and Forecasting Model, Air temperature, Environmental science, Urban heat island, Intensity (heat transfer), 0105 earth and related environmental sciences
Abstract

In this study, the relationship between urban size and heat island intensity is analyzed using the meso-scale sWeather Research & Forecasting (WRF) model, and is applied to three different sized cities (Tokyo, Osaka, and Nagoya). Given that the urban areas of the study region spread inland, there were a number of high temperature points, with air temperature tending to be relatively higher in Tokyo. The spatial average air temperature in urban areas rise with the expansion of the urban size, since higher air temperature areas increase inland. In the case of calculating the heat island intensity using spatial average temperatures in urban areas, the heat island intensity is related to urban size.

Published
2018
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42. TESSELLATION AS AN ALTERNATIVE AGGREGATION METHOD

Author

Kateryna Zabarina

Subjects
0301 basic medicine, Tessellation (computer graphics), Computer science, 0208 environmental biotechnology, Spatial average, 02 engineering and technology, 020801 environmental engineering, Point data, 03 medical and health sciences, Modifiable areal unit problem, 030104 developmental biology, Voronoi diagram, Spatial analysis, Algorithm
Published
2018
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43. Prediction intervals for integrals of Gaussian random fields.

Author

De Oliveira, Victor and Kone, Bazoumana

Subjects
*GAUSSIAN processes, *INTEGRALS, *ALGEBRAIC field theory, *GEOLOGICAL statistics, *KRIGING
Abstract

Methodology is proposed for the construction of prediction intervals for integrals of Gaussian random fields over bounded regions (called block averages in the geostatistical literature) based on observations at a finite set of sampling locations. Two bootstrap calibration algorithms are proposed, termed indirect and direct, aimed at improving upon plug-in prediction intervals in terms of coverage probability. A simulation study is carried out that illustrates the effectiveness of both procedures, and these procedures are applied to estimate block averages of chromium traces in a potentially contaminated region in Switzerland. [ABSTRACT FROM AUTHOR]

Published
2015
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44. Randomized Spectral and Fourier-Wavelet Methods for multidimensional Gaussian random vector fields.

Author

Kurbanmuradov, Orazgeldi, Sabelfeld, Karl, and Kramer, Peter R.

Subjects
*GAUSSIAN processes, *SPECTRAL theory, *PLANE wavefronts, *VECTOR fields, *STOCHASTIC convergence, *STATISTICAL sampling
Abstract

Highlights: [•] We develop new variations of methods for simulating Gaussian random vector fields. [•] Randomized Spectral Method can efficiently simulate low-order ensemble statistics. [•] Fourier-Wavelet Method performs better for spatial sampling of single realization. [•] Second-order Lagrangian statistics can be simulated well by either method. [•] Stratified sampling of angles in plane wave decomposition greatly helps convergence. [ABSTRACT FROM AUTHOR]

Published
2013
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45. Simulating Spatial Averages of Stationary Random Field Using the Fourier Series Method.

Author

Jha, Sanjay Kumar and Ching, Jianye

Subjects
*SIMULATION methods & models, *RANDOM fields, *FOURIER series, *EQUILIBRIUM, *FINITE element method, *AUTOCORRELATION (Statistics)
Abstract

A Fourier series method (FSM) of simulating spatial averages of stationary Gaussian random fields is presented. The FSM is able to simulate spatial averages over nonequally spaced rectangular cells, and by adopting Gauss quadrature, it can be further applied to nonrectangular cells. It is also capable of simulating line averages over any prescribed line segment in two dimensions. The former (spatial averaging over cells) is essential for finite-element analysis, while the latter (line averaging over line segments) is essential for slope-stability analysis using limit equilibrium. To resolve the issue of unrealistic periodical correlation pertaining to the FSM, a rule of thumb is provided to extend the simulation space. For cases with nonrectangular cells, the required number of Gauss points to achieve a prescribed accuracy is calibrated for both one-dimensional (1D) and two-dimensional (2D) cases and for both the single-exponential (SExp) and squared-exponential (QExp) autocorrelation models. The consistency of the FSM is verified through 1D and 2D examples for both SExp and QExp models. [ABSTRACT FROM AUTHOR]

Published
2013
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46. Systematic Transformation Error in the Depth-Average Undrained Shear Strength

Author

van der Krogt, M.G. (author), Schweckendiek, T. (author), van der Krogt, M.G. (author), and Schweckendiek, T. (author)

Abstract

In this paper we show how to calibrate a site-specific transformation model to measure the undrained shear strength from CPTs. This practically unbiased transformation model can then be used to make a better estimation of the spatial average parameter, such as the depth-average of a soil layer in a homogenous deposit, using less costly indirect measurements. We show that there is a considerable difference in terms of characteristic value and probability density, between the assumptions of entirely random or systematic transformation uncertainty. Ultimately we show what the effect is of making more realistic choices for the random and systematic part in the transformation uncertainty for a case study with actual data., Hydraulic Structures and Flood Risk

Published
2019

47. A stochastic framework for downscaling processes of spatial averages based on the property of spectral multiscaling and its statistical diagnosis on spatio-temporal rainfall fields

Author

Pavlopoulos, Harry

Subjects
*MULTISCALE modeling, *DISTRIBUTION (Probability theory), *STATIONARY processes, *RAINFALL, *METEOROLOGICAL observations, *SIMULATION methods & models
Abstract

Abstract: Spectral multi-scaling postulates a power-law type of scaling of spectral distribution functions of stationary processes of spatial averages, over nested and geometrically similar sub-regions of the spatial parameter space of a given spatio-temporal random field. Presently a new framework is formulated for down-scaling processes of spatial averages, following naturally from the postulate of spectral multi-scaling, and key ingredients required for its implementation are described. Moreover, results from an extensive diagnostic study are presented, seeking statistical evidence supportive of spectral multi-scaling. Such evidence emerges from two sources of data. One is a 13year long historical record of radar observations of rainfall in southeastern UK (Chenies radar), with high spatial (2km) and temporal (5min) resolution. The other is an ensemble of rain rate fields simulated by a spatio-temporal random pulse model fitted to the historical data. The results are consistent between historical and simulated rainfall data, indicating frequency-dependent scaling relationships interpreted as evidence of spectral multi-scaling across a range of spatial scales. [Copyright &y& Elsevier]

Published
2011
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48. On the Spatial Averaging of Multiple Narrowband Electromagnetic Field Measurements: Methods and Uncertainty Estimation.

Author

Stratakis, Dimitrios I., Miaoudakis, Andreas I., Zacharopoulos, Vassilios G., and Xenos, Thomas D.

Subjects
*ELECTROMAGNETIC fields, *EXTRAPOLATION, *GSM communications, *ESTIMATION theory, *REAL-time computing
Abstract

Methods of computational prediction can be used or specific measurements have to be performed for the estimation of human exposure to nonionizing electromagnetic fields at a certain place. According to the exposure standards, the predicted or the measured values have to be spatially averaged in an area representing the dimensions of the human body and compared with the adopted maximum permissible levels of exposure. In this paper, methods for spatial averaging nonionizing electromagnetic fields are discussed. Moreover, methods for estimating spatial average uncertainty of the total field strength values and of the summation of exposure quotients when narrowband measurements are performed in a multiple-frequency environment are proposed. Furthermore, since maximum field values have to be averaged according to the most widely accepted exposure standards, the traffic-dependent power level variation issue is also addressed. In particular, for GSM systems, an extrapolation method to the maximum possible field levels using data from real-time measurements when the frequency allocation per operator base station and the spatial distribution of the exposure sources are unknown is also proposed. Finally, an uncertainty estimation procedure associated to the extrapolated levels is presented. [ABSTRACT FROM AUTHOR]

Published
2010
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49. Mathematical Derivation of Spatially-Averaged Momentum Equations for an Urban Canopy Model Using Underlying Concepts of the Immersed Boundary Method.

Author

Takaaki Kono, Ashie, Yasunobu, and Tamura, Tetsuro

Subjects
*NAVIER-Stokes equations, *BLOCKING (Meteorology), *ATMOSPHERIC boundary layer, *METEOROLOGY, *MATHEMATICAL models
Abstract

We propose a new approach to derive spatially-averaged momentum equations for an urban canopy model that resolves buildings vertically and not horizontally. First, in order to mathematically describe the actual momentum field as a completely continuous field, the underling concepts of the immersed boundary method are employed, where we assume that (i) the entire simulation space, including that occupied by buildings, is filled with a fluid, and (ii) an external body force field exists that reduces the wind speed to zero at all positions coinciding with the space occupied by the buildings. Then, in order to obtain the required spatially-averaged momentum equations in a self-consistent manner, a spatial-averaging operation is applied to the Navier–Stokes equations that include a term representing the external force field. The applied spatial-averaging operation is equivalent to the conventional spatial filtering operation used in large-eddy simulations. To examine the significance of the subgrid-scale (SGS) stresses of the spatially-averaged momentum equations, a numerical simulation is performed for a flow around a regular array of cubical blocks with a grid resolution that is sufficient to resolve the blocks. By estimating the individual terms in the spatially-averaged momentum equations using the simulation results, we show that the SGS stresses contribute significantly to the spatially-averaged momentum budget, and therefore they should not be neglected in urban canopy modelling. [ABSTRACT FROM AUTHOR]

Published
2010
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50. Numerical Investigations of Mean Winds Within Canopies of Regularly Arrayed Cubical Buildings Under Neutral Stability Conditions.

Author

Kono, Takaaki, Tamura, Tetsuro, and Ashie, Yasunobu

Subjects
*HEAT exchanger incrustations, *INCRUSTATIONS, *MOTION, *WASTE products, *POLLUTANTS
Abstract

Recently, several attempts have been made to model the wind velocity in an urban canopy in order to accurately predict the mixing and transport of momentum, heat, and pollutants within and above the canopy on an urban scale. For this purpose, unverified assumptions made by Macdonald (Boundary-Layer Meteorol 97:25–45, 2000) to develop a model for the profile of the mean wind velocity within an urban canopy have been used. In the present study, in order to provide foundations for improving the urban canopy models, the properties of the spatially-averaged mean quantities used to make these assumptions have been investigated by performing large-eddy simulations (LES) of the airflow around square and staggered arrays of cubical blocks with the following plan area densities: λ p = 0.05, 0.11, 0.16, 0.20, 0.25, and 0.33. The LES results confirm that the discrepancy between the spatial average of wind velocity and Macdonald’s five-point average of wind velocity can be large in both types of arrays for large λ p. It is also confirmed that Prandtl’s mixing length varies significantly with height within the canopy, contrary to Macdonald’s assumption for both types of arrays and for both small and large λ p. On the other hand, in accordance with Macdonald’s assumption, the sectional drag coefficient is found to be almost constant with height except in the case of staggered arrays with high λ p. [ABSTRACT FROM AUTHOR]

Published
2010
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