50
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S. Peigin, S. Timchenko and B. Epstein.
The Stability of the Optimal Aerodynamic Design of an Isolated Three-Dimensional Wing to Its Initial Form, Technical Physics, volume 63, pages 1736–1742, December 2018.
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49
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Boris Epstein and Sergey Peigin.
Automatic optimization of wing–body–under-the-wing-mounted-nacelle configurations, Journal of Aircraft, volume 53, number 3, pages 691–700, American Institute of Aeronautics and Astronautics, May 2016.
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48
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Sergey Peigin and Boris Epstein.
Automatic Design of Wing–Body–Nacelle Configurations for Minimum Drag, AIAA Journal, volume 53, number 7, pages 1994–2004, American Institute of Aeronautics and Astronautics, July 2015.
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47
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Sergey PEIGIN, 朱自强 Zhu Ziqiang and Boris EPSTEIN.
可应用于民机空气动力设计中的数值优化方法 Numerical optimization method applicable to civil aircraft aerodynamic design, 航空学报 (Journal of Aviation), pages 58–69, 2014.
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46
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C. Popovich, N. Shapiro, B. Epstein and S. Peigin.
Massively Parallel Industry-strength Design of Aerodynamic Wings, Procedia Engineering, volume 61, pages 292—297, 2013, 25th International Conference on Parallel Computational Fluid Dynamics.
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45
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S. Peigin and B. Epstein.
Massive Parallelization for industrial CFD based analysis and design, in P. Iványi and B.H.V. Topping (eds.), Trends in Parallel, Distributed, Grid and Cloud Computing in Engineering, Computational Science, Engineering and Technology Series, volume 27, pages 269–290, Saxe-Coburg Publications, 2011.
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44
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S. Peigin, B. Epstein and S. Gali.
Parallel implementation of fictitious surfaces method for aerodynamic shape optimization, in Lecture notes in computational science and engineering, volume 74, pages 71–82, Springer, 2010.
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43
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Boris Epstein and Sergey Peigin.
Treatment of nonmatched grids for high-accuracy Navier-Stokes solutions, AIAA journal, volume 48, number 7, pages 1542–1553, July 2010.
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42
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Boris Epstein, Antony Jameson, Sergey Peigin, Dino Roman, Neal Harrison and John Vassberg.
Comparative study of three-dimensional wing drag minimization by different optimization techniques, Journal of Aircraft, volume 46, number 2, pages 526–541, 2009.
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41
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藍庭顯, 黃翔瑜 and 許彥文.
應用基因演算法求 NACA0012 翼剖面最大升阻比之探討, Journal of China Institute of Technology, volume 40, 2009.
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40
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Boris Epstein and Sergey Peigin.
ACCURATE INCORPORATION OF NON-TO-POINT MATCHED COMPUTATIONAL BLOCKS INTO FULL NAVIER-STOKES COMPUTATIONS ON STRUCTURED GRIDS, 2008.
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39
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Sergey Peigin and Boris Epstein.
Multiconstrained aerodynamic design of business jet by CFD driven optimization tool, Aerospace Science and Technology, volume 12, number 2, pages 125–134, Elsevier, 2008.
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38
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Sergey Peigin and Boris Epstein.
Aerodynamic optimization of essentially three-dimensional shapes for wing-body fairing, AIAA journal, volume 46, number 7, pages 1814–1825, 2008.
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37
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Boris Epstein and Sergey Peigin.
HYBRIDIZATION OF HETEROGENEOUS 3D CFD DISCRETIZATIONS VIA DIRECT FLUX OPTIMIZATION, September 2008.
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36
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Boris Epstein and Sergey Peigin.
Efficient approach for multipoint aerodynamic wing design of business jet aircraft, AIAA journal, volume 45, number 11, pages 2612–2621, 2007.
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35
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Sergey Peigin and Boris Epstein.
Multipoint aerodynamic design of wing-body configurations for minimum drag, Journal of aircraft, volume 44, number 3, pages 971–980, 2007.
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34
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Boris Epstein and Sergey Peigin.
Accurate CFD driven optimization of lifting surfaces for wing-body configuration, Computers & fluids, volume 36, number 9, pages 1399–1414, Elsevier, January 2007.
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33
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Amir Averbuch, Boris Epstein, Neta Rabin and Eli Turkel.
Edge-enhancement postprocessing using artificial dissipation, IEEE transactions on image processing, volume 15, number 6, pages 1486–1498, IEEE, 2006.
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32
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Boris Epstein, Sergey Peigin and Shlomo Tsach.
A new efficient technology of aerodynamic design based on CFD driven optimization, Aerospace science and technology, volume 10, number 2, pages 100–110, Elsevier, 2006.
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31
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Sergey Peigin and Boris Epstein.
Optimization of Blended Wing Body Aircraft by Automatic CFD Driven Design Tool, 2006.
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30
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Sergey Peigin and Boris Epstein.
Computational fluid dynamics driven optimization of blended wing body aircraft, AIAA journal, volume 44, number 11, pages 2736–2745, 2006.
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29
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Sergey Peigin and Boris Epstein.
Robust drag minimization of aerodynamic wings in engineering environment, Journal of aircraft, volume 43, number 4, pages 1195–1204, 2006.
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28
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Boris Epstein and Sergey Peigin.
Constrained aerodynamic optimization of three-dimensional wings driven by Navier-Stokes computations, AIAA journal, volume 43, number 9, pages 1946–1957, 2005.
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27
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Stephane Séror, Theodor Rubin, Sergey Peigin and Boris Epstein.
Implementation and validation of the Spalart-Allmaras turbulence model in parallel environment, Journal of aircraft, volume 42, number 1, pages 179–188, 2005.
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26
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Elena Braverman, Boris Epstein, Moshe Israeli and Amir Averbuch.
A fast spectral subtractional solver for elliptic equations, Journal of Scientific Computing, volume 21, pages 91–128, Springer, 2004.
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25
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Boris Epstein and Sergey Peigin.
Robust hybrid approach to multiobjective constrained optimization in aerodynamics, AIAA journal, volume 42, number 8, pages 1572–1581, 2004.
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24
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S Peigin and Boris Epstein.
Embedded parallelization approach for optimization in aerodynamic design, The Journal of Supercomputing, volume 29, number 3, pages 243–263, Springer, 2004.
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23
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Sergey Peigin and Boris Epstein.
Robust optimization of 2D airfoils driven by full Navier–Stokes computations, Computers & fluids, volume 33, number 9, pages 1175–1200, Elsevier, 2004.
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22
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S. Peigin, B. Epstein and S. Gali.
- Multilevel parallelization strategy for optimization of aerodynamic shapes, in A. Ecer, N. Satofuka, J. Periaux and P. Fox (eds.), Parallel Computational Fluid Dynamics 2003, pages 505—512, Elsevier, 2004.
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21
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S. Peigin, B. Epstein, T. Rubin and S. Séror.
Parallel large scale high accuracy Navier-Stokes computations on distributed memory clusters, The Journal of Supercomputing, volume 27, number 1, pages 49–68, Springer, January 2004.
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20
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Boris Epstein, Theodor Rubin and Stéphane Séror.
Accurate multiblock Navier-Stokes solver for complex aerodynamic configurations, AIAA journal, volume 41, number 4, pages 582–594, 2003.
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19
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S. Peigin, B. Epstein, T. Rubin and S. Séror.
Parallel high accuracy CFD code for complete aircraft viscous flow simulations, in K. Matsuno, A. Ecer, N. Satofuka, J. Periaux and P. Fox (eds.), Parallel Computational Fluid Dynamics 2002, pages 507 – 514, North-Holland, 2003.
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18
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B. Epstein, S. Séror, S. Peigin and T. Rubin.
Development of an accurate multiblock multiface parallel Navier-Stokes code NES with the Spallart-Almares model for complex aerodynamic configurations, in Aerospace Applications From High Subsonic to Hypersonic Regime, pages 460–469, 2002.
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17
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B. Epstein, I. Yavneh and A. Averbuch.
An accurate ENO driven multigrid method applied to 3-D turbulent transonic flows, Journal of Computational Physics, volume 168, April 2001.
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16
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Amir Averbuch, Boris Epstein, Ludimila Ioffe and Irad Yavneh.
Efficient parallelization of a three-dimensional Navier-Stokes solver on MIMD multiprocessors, The Journal of Supercomputing, volume 17, number 2, pages 123–142, Springer, January 2000.
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15
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B. Epstein, A. Jacobs and A. Nachshon.
Aerodynamically accurate three-dimensional Navier-Stokes method, AIAA journal, volume 35, number 6, pages 1089–1090, 1997.
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14
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S. Peigin and B. Epstein.
Massive Parallelization as Prinicipal Technology for Constrained Optimization of Aerodynamic Shapes, in G. Winter, A. Ecer, P. Fox, J. Periaux and N. Satofuka (eds.), Parallel Computational Fluid Dynamics 2004, pages 33—44, Elsevier Science, 1996.
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13
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Boris Epstein, Alexander L. Luntz and Aharon Nachshon.
Cartesian Euler method for arbitrary aircraft configurations, AIAA journal, volume 30, number 3, pages 679–687, May 1992.
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12
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B. Epstein, A. L. Luntz and A. Nachshon.
Multigrid transonic computations about arbitrary aircraft configurations, Journal of Aircraft, volume 26, number 8, pages 751–759, 1989.
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11
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A. Luntz and B. Epstein.
A multigrid full potential transonic code for arbitrary configurations, GMD—Studien Nr 110 (German Institute for Mathematics and Data Processing), GMD Sankt-Augustin, pages 101–110, May 1986.
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10
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V. Rivkind and B. Epstein.
The numerical method for solving non-stationary free boundary problems for the Navier-Stokes equations in curvilinear systems, Vestnik Leningrad Univ., volume 13, pages 79–83, 1984.
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9
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A. Luntz and B. Epstein.
Modular potential flow computation including fuselage and wing tip effects, Israel Journal of Technology, volume 21, pages 76–80, 1983.
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8
|
B. Epstein and V. Rivkind.
Numerical experiment by projection schemes for the Navier-Stokes equations (Russian), Methods of Computation, (Metody Vichisl.), volume 10, pages 143-151, 1976.
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7
|
V. Rivkind and B. Epstein.
Alternating directions net schemes for solving the Navier-Stokes equations in orthogonal curvilinear coordinates, Transactions of the Seminar on Viscous Fluid Mechanics (Russian), Novosibirsk, volume 1, pages 90–95, 1976.
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6
|
B. Epstein and V. Rivkind.
Grid schemes with projection for the solution of the equations of the dynamics of viscous incompressible fluid (Russian, English summary), Vestnik Leningrad Univ., 13, Math. Mech. Astronom., volume 3, pages 144–147, 1975.
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5
|
V. Rivkind and B. Epstein.
Net schemes for the Navier- Stokes equations associated with projections, USSR Comp. Math. Physics, volume 15, pages 240–246, 1975.
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4
|
B. Epstein.
A scheme of variable directions type for the Navier-Stokes problem (Russian, English Summary), Vestnik Leningrad Univ., 7, Math. Mech. Astronom., volume 2, pages 166–168, 1974.
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3
|
B. Epstein and V. Rivkind.
Projection schemes for the solution of the Navier- Stokes equations in orthogonal curvilinear coordinates (Russian, English summary), Leningrad Univ., 13, Math. Mech. Astronom., volume 3, pages 56–63, 1974.
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2
|
B. Epstein and V. Rivkind.
High accuracy schemes for solving the Navier-Stokes equations (Russian), Numerical Methods in the Mechanics of Continuous Medium, volume 4, number 5, pages 105–111, 1973.
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1
|
B. Epstein and A. Shuster.
Construction of the tabular values in the numerical integration of a system of ordinary differential equations (Russian), Met. Vichisl., volume 8, pages 19–22, 1973.
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