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1

M, Souli, and Benson D. J. 1955-, eds. ALE and fluid: Structure Interactions numerical simulation. ISTE, 2009.

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2

M, Souli, and Benson D. J. 1955-, eds. ALE and fluid: Structure Interactions numerical simulation. ISTE, 2009.

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3

W, Bull John, ed. Soil structure interaction: Numerical analysis and modelling. E & FN Spon, 1994.

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4

Wang, Qiuliang. Practical Design of Magnetostatic Structure Using Numerical Simulation. John Wiley & Sons (Asia) Pte Ltd, 2013. http://dx.doi.org/10.1002/9781118398159.

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5

L, Bulzan D., Agrawal S. K, and United States. National Aeronautics and Space Administration., eds. Structure of confined laminar spray diffusion flames/numerical investigation. National Aeronautics and Space Administration, 1993.

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6

Dłużewski, Janusz Maciej. Numerical modelling of soil-structure interactions in consolidation problems. Wydawnictwa Politechniki Warszawskiej, 1993.

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7

1959-, Lubich Christian, and Wanner Gerhard, eds. Geometric numerical integration: Structure-preserving algorithms for ordinary differential equations. 2nd ed. Springer, 2010.

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8

Migdałek, Jacek. Model-potential methods in atomic structure calculations. Nakł. Uniwersytetu Jagiellońskiego, 1990.

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9

E, Hairer, Lubich Christian 1959-, and Wanner Gerhard, eds. Geometric numerical integration: Structure-preserving algorithms for ordinary differential equations. Springer, 2002.

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10

Hairer, E. Geometric Numerical Integration: Structure-Preserving Algorithms for Ordinary Differential Equations. Springer Berlin Heidelberg, 2002.

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11

Hill, Reginald J. Mathematics of structure-function equations of all orders. U.S. Dept. of Commerce, National Oceanic and Atmospheric Administration, Oceanic and Atmospheric Research Laboratories, Environmental Technology Laboratory, 2001.

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12

Environmental Technology Laboratory (Oceanic and Atmospheric Research Laboratories), ed. Mathematics of structure-function equations of all orders. U.S. Dept. of Commerce, National Oceanic and Atmospheric Administration, Oceanic and Atmospheric Research Laboratories, Environmental Technology Laboratory, 2001.

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13

Hill, Reginald J. Mathematics of structure-function equations of all orders. U.S. Dept. of Commerce, National Oceanic and Atmospheric Administration, Oceanic and Atmospheric Research Laboratories, Environmental Technology Laboratory, 2001.

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14

Environmental Technology Laboratory (Oceanic and Atmospheric Research Laboratories), ed. Mathematics of structure-function equations of all orders. U.S. Dept. of Commerce, National Oceanic and Atmospheric Administration, Oceanic and Atmospheric Research Laboratories, Environmental Technology Laboratory, 2001.

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15

Environmental Technology Laboratory (Oceanic and Atmospheric Research Laboratories), ed. Mathematics of structure-function equations of all orders. U.S. Dept. of Commerce, National Oceanic and Atmospheric Administration, Oceanic and Atmospheric Research Laboratories, Environmental Technology Laboratory, 2001.

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16

Environmental Technology Laboratory (Oceanic and Atmospheric Research Laboratories), ed. Mathematics of structure-function equations of all orders. U.S. Dept. of Commerce, National Oceanic and Atmospheric Administration, Oceanic and Atmospheric Research Laboratories, Environmental Technology Laboratory, 2001.

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17

K, Langanke, Maruhn J. A, and Koonin Steven E, eds. Computational nuclear physics 1: Nuclear structure. Springer-Verlag, 1991.

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18

Giovanni, Bonvicini, American Institute of Physics, and Workshop on QED Structure Functions (1989 : University of Michigan), eds. QED structure functions: Ann Arbor, MI, 1989. American Institute of Physics, 1990.

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19

Resnikoff, Howard L. Wavelet Analysis: The Scalable Structure of Information. Springer New York, 1998.

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20

Powers, Joseph M. Comparisons of numerical and exact solutions for oblique detonations with structure. American Institute of Aeronautics and Astronautics, 1991.

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21

Defranceschi, Mireille, and Joseph Delhalle, eds. Numerical Determination of the Electronic Structure of Atoms, Diatomic and Polyatomic Molecules. Springer Netherlands, 1989. http://dx.doi.org/10.1007/978-94-009-2329-4.

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22

L, Bulzan D., Agrawal S. K, and United States. National Aeronautics and Space Administration., eds. On the structure of gaseous confined laminar spray diffusion flames/numerical investigation. National Aeronautics and Space Administration, 1993.

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23

L, Bulzan Daniel, Agrawal S. K, and United States. National Aeronautics and Space Administration., eds. On the structure of gaseous confined laminar spray diffusion flames/numerical investigation. National Aeronautics and Space Administration, 1993.

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24

Defranceschi, Mireille. Numerical Determination of the Electronic Structure of Atoms, Diatomic and Polyatomic Molecules. Springer Netherlands, 1989.

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25

1955-, Defranceschi Mireille, and Delhalle Joseph 1945-, eds. Numerical determination of the electronic structure of atoms, diatomic and polyatomic molecules. Kluwer Academic Publishers, 1989.

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26

Jameson, Antony. Analysis and design of numerical schemes for gas dynamics 2: artificial diffusion and discrete shock structure. Research Institute for Advanced Computer Science ; Ames Research Center, 1994.

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27

Borri, Claudio, and Claudio Mannini, eds. Aeroelastic Phenomena and Pedestrian-Structure Dynamic Interaction on Non-Conventional Bridges and Footbridges. Firenze University Press, 2010. http://dx.doi.org/10.36253/978-88-6453-202-8.

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Abstract:
Fluid-structure and pedestrian-structure interaction phenomena are extremely important for non-conventional bridges. The results presented in this volume concern: simplified formulas for flutter assessment; innovative structural solutions to increase the aeroelastic stability of long-span bridges; numerical simulations of the flow around a benchmark rectangular cylinder; examples of designs of large structures assisted by wind-tunnel tests; analytical, computational and experimental investigation of the synchronisation mechanisms between pedestrians and footbridge structures. The present book
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28

Chuang, Tsai-Fu. Numerical modelling of reinforced concrete structure under monotonic and earthquake-like dynamic loading. University of Birmingham, 2001.

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29

Krist, Steven E. Numerical simulation of channel flow transition: Resolution requirements and structure of the hairpin vortex. National Aeronautics and Space Administration, Scientific and Technical Information Branch, 1987.

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30

A, Zang Thomas, and United States. National Aeronautics and Space Administration. Scientific and Technical Information Branch., eds. Numerical simulation of channel flow transition: Resolution requirements and structure of the hairpin vortex. National Aeronautics and Space Administration, Scientific and Technical Information Branch, 1987.

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31

Kreuzer, Edwin. IUTAM Symposium on Fluid-Structure Interaction in Ocean Engineering. Springer Science+Business Media B.V., 2008.

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32

Karlsruhe, Universität, ed. Experimental and numerical investigation of soil-foundation-structure interaction during monotonic, alternating and dynamic loading. Institut für Bodenmechanik und Felsmechanik, Universität Fridericiana Karlsruhe, 2006.

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33

Edmons, Nathan L. Studies of South China Sea circulation and thermal structure using a three dimensional numerical model. Naval Postgraduate School, 1996.

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34

Numerical Structure of Scripture. Wipf & Stock Publishers, 2020.

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35

Grant, F. W. Numerical Structure of Scripture. Wipf & Stock Publishers, 2020.

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36

Grant, F. W., and CrossReach Publications. Numerical Structure of Scripture. Independently Published, 2017.

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37

Chakrabarti, S. K., ed. Numerical Models in Fluid-Structure Interaction. WIT Press, 2005. http://dx.doi.org/10.2495/978-1-85312-837-0.

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38

Stockford, Charles. Numerical Structure of the Holy Bible. Page Publishing Inc., 2017.

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39

Fluid structure interaction: Applied numerical methods. Wiley, 1995.

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40

Jr, Charles Stockford. Numerical Structure of the Holy Bible. Page Publishing Inc., 2016.

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41

Grange, Stéphane, and Diana Salciarini, eds. Deterministic Numerical Modeling of Soil–Structure Interaction. Wiley, 2022. http://dx.doi.org/10.1002/9781119887690.

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42

Bull, J. W. Soil-Structure Interaction: Numerical Analysis and Modelling. Taylor & Francis Group, 2002.

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43

Advanced Numerical Modelling of Wave Structure Interaction. CRC Press, 2022.

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44

Bull, J. w. Soil-Structure Interaction: Numerical Analysis and Modelling. Taylor & Francis, 1994.

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45

Grange, Stephane, and Diana Salciarini. Deterministic Numerical Modeling of Soil Structure Interaction. Wiley & Sons, Incorporated, John, 2022.

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46

Grange, Stephane, and Diana Salciarini. Deterministic Numerical Modeling of Soil Structure Interaction. Wiley & Sons, Incorporated, John, 2022.

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47

Kelly, David M., Angelos Dimakopoulos, and Pablo Higuera Caubilla. Advanced Numerical Modelling of Wave Structure Interaction. Taylor & Francis Group, 2021.

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48

Bull, J. W. Soil-Structure Interaction: Numerical Analysis and Modelling. Taylor & Francis Group, 2002.

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49

David, Kelly, Angelos Dimakopoulos, and Pablo Higuera Caubilla. Advanced Numerical Modelling of Wave Structure Interaction. Taylor & Francis Group, 2021.

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50

Kelly, David M., Angelos Dimakopoulos, and Pablo Higuera Caubilla. Advanced Numerical Modelling of Wave Structure Interaction. Taylor & Francis Group, 2021.

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