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Inverse Problems in Science and Engineering Volume 13, 2005 - Issue 6
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Original Articles

Inverse airfoil design by using an accelerated genetic algorithm via distribution strategies

A. Hacioğlua Department of Aeronautical Engineering, Turkish Air Force Academy, Yesilyurt, 34149, Istanbul, Turkey
&
İ. Özkolb Department of Aeronautics and Astronautics Faculty, I.T.U., Maslak, 80626, Istanbul, Turkey
Pages 563-579 | Received 23 May 2004, Accepted 18 Jan 2005, Published online: 22 Aug 2006

Citations (16)

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N. Manzanares-Filho, R. B. F. Albuquerque, B. S. Sousa & L. G. C. Santos. (2018) A comparative study of controlled random search algorithms with application to inverse aerofoil design. Engineering Optimization 50:6, pages 996-1015.
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A. Ashrafizadeh, S. Okhovat, M. Pourbagian & G.D. Raithby. (2011) A semi-coupled solution algorithm in aerodynamic inverse shape design. Inverse Problems in Science and Engineering 19:4, pages 509-528.
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A. Jahangirian & A. Shahrokhi. (2009) Inverse design of transonic airfoils using genetic algorithm and a new parametric shape method. Inverse Problems in Science and Engineering 17:5, pages 681-699.
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Ergüven Vatandaş, Abdurrahman Hacioglu & İbrahim Özkol. (2007) Vibrational genetic algorithm (VGA) and dynamic mesh in the optimization of 3D wing geometries. Inverse Problems in Science and Engineering 15:6, pages 643-657.
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Articles from other publishers (12)

Mourad Oulghelou & Cyrille Allery. (2020) Non‐intrusive reduced genetic algorithm for near‐real time flow optimal control. International Journal for Numerical Methods in Fluids 92:9, pages 1118-1134.
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Liang Hou & Roger J. Jiao. (2019) Data-informed inverse design by product usage information: a review, framework and outlook. Journal of Intelligent Manufacturing 31:3, pages 529-552.
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Mehmet Burak Ozbilgin, Hakan Telli & Omer Ozkan. (2017) Hybrid rocket engine design with multi-objective vibrational genetic algorithm. Hybrid rocket engine design with multi-objective vibrational genetic algorithm.
Nazila Kardan, Yousef Hassanzadeh & Babak Shakooei Bonab. (2016) Shape Optimization of Trapezoidal Labyrinth Weirs Using Genetic Algorithm. Arabian Journal for Science and Engineering 42:3, pages 1219-1229.
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L. Di Angelo & P. Di Stefano. (2014) An evolutionary geometric primitive for automatic design synthesis of functional shapes: The case of airfoils. Advances in Engineering Software 67, pages 164-172.
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Darius Mačiūnas. 2013. Daugiakriteris globalus sijynų optimizavimas genetiniais algoritmais. Daugiakriteris globalus sijynų optimizavimas genetiniais algoritmais.
T. Rogalsky & R W Derksen. (2009) Bézier–PARSEC parameterization for airfoil optimization. Canadian Aeronautics and Space Journal 55:3, pages 163-174.
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. (2009) Full Issue in PDF / Numéro complet enform PDF. Canadian Aeronautics and Space Journal 55:3, pages 1-183.
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Ergüven Vatandas & İbrahim Özkol. (2007) Coupling dynamic mesh technique and heuristic algorithms in 3‐D‐tapered wing design. International Journal for Numerical Methods in Engineering 74:12, pages 1771-1794.
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Eleftherios I. Amoiralis & Ioannis K. Nikolos. (2008) Freeform Deformation Versus B-Spline Representation in Inverse Airfoil Design. Journal of Computing and Information Science in Engineering 8:2.
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Ergüven Vatandas. (2007) Geometrical and positional optimization of the forward swept lift producing surfaces in 3D flow domains. Aircraft Engineering and Aerospace Technology 79:6, pages 635-645.
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Abdurrahman Hacioglu. (2007) Fast Evolutionary Algorithm for Airfoil Design via Neural Network. AIAA Journal 45:9, pages 2196-2203.
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