[1] FANG X M, ZHANG Y F, CHEN H X. Transonic nacelle aerodynamic optimization based on hybrid genetic algorithm:AIAA-2016-3833[R]. Reston, VA:AIAA, 2016. [2] HAN Z H, ZHANG K S, LIU J, et al. Surrogate-based aerodynamic shape optimization with application to wind turbine airfoils:AIAA-2013-1108[R]. Reston, VA:AIAA, 2013. [3] ZHANG K S, HAN Z H, LI W J, et al. Coupled aerodynamic and structural optimization of a subsonic-transport wing using surrogate model:AIAA-2008-897[R]. Reston, VA:AIAA, 2008. [4] HUANG J T, GAO Z H, ZHAO K, et al. Robust design of supercritical wing aerodynamic optimization considering fuselage interfering[J]. Chinese Journal of Aeronautics, 2010, 23(5):523-528. [5] ZHANG Y, HAN Z H, SHI L X, et al. Multi-round surrogate-based optimization for benchmark aerodynamic design problems:AIAA-2016-1545[R]. Reston, VA:AIAA, 2016. [6] 李焦赞, 高正红. 多目标进化算法和代理模型技术在气动稳健优化设计中的应用[J]. 空气动力学学报, 2012, 30(1):47-51. LI J Z, GAO Z H. The application of multi-objective evolutionary algorithm and surrogate model to aerodynamic robust optimization design[J]. Acta Aerodynamica Sinica, 2012, 30(1):47-51(in Chinese). [7] 王超, 高正红. 小展弦比薄机翼精细化气动优化设计研究[J]. 中国科学:技术科学, 2015, 45(6):643-653. WANG C, GAO Z H. Refined aerodynamic design optimization of a wing with small aspect ratio[J]. Scientia Sinica Technologica, 2015, 45(6):643-653(in Chinese). [8] JAMESON A. Aerodynamic design via control theory[J]. Journal of Scientific Computing, 1988, 3:233-260. [9] CARPENTIERI G. An adjoint-based shape-optimization method for aerodynamic design[D]. Delft:Delft Technische Universiteit, 2009. [10] DWIGHT R P, BREZILLON J. Effect of various approximations of the discrete adjoint on gradient-based optimization:AIAA-2006-0690[R]. Reston, VA:AIAA, 2006. [11] 左英桃, 高正红, 詹浩. 基于N-S方程和离散共轭方法的气动设计方法研究[J]. 空气动力学学报, 2009, 27(1):67-72. ZUO Y T, GAO Z H, ZHAN H. Aerodynamic design method based on N-S equations and discrete adjoint approach[J]. Acta Aerodynamica Sinica, 2009, 27(1):67-72(in Chinese). [12] 高宜胜, 伍贻兆, 夏健. 基于非结构网格离散型伴随方法的翼型优化[J]. 空气动力学学报, 2013, 31(2):244-249. GAO Y S, WU Y Z, XIA J. A discrete adjoint-based approach for airfoil optimization on unstructured meshes[J]. Acta Aerodynamica Sinica, 2013, 31(2):244-249(in Chinese). [13] 李彬, 邓有奇, 唐静, 等. 基于三维非结构混合网格的离散伴随优化方法[J]. 航空学报, 2014, 35(3):674-686. LI B, DENG Y Q, TANG J, et al. Discrete adjoint optimization method for 3D unstructured grid[J]. Acta Aeronautica et Astronautica Sinica, 2014, 35(3):674-686(in Chinese). [14] LYU Z J, KENWAY G K, MARTINS J R R A. RANS-based aerodynamic shape optimization investigations of the common research model wing:AIAA-2014-0567[R]. Reston, VA:AIAA, 2014. [15] KENWAY G K, MARTINS J R R A. Aerodynamic shape optimization of the CRM configuration including buffet-onset conditions[C]//54th AIAA Aerospace Sciences Meeting. Reston, VA:AIAA, 2016. [16] HUANG J T, ZHOU Z, GAO Z H, et al. Aerodynamic multi-objective integrated optimization based on principal component analysis[J]. Chinese Journal of Aeronautics, 2017, 30(4):1336-1348. [17] 郑传宇, 黄江涛, 周铸, 等. 飞翼翼型高维目标空间多学科综合优化设计[J]. 空气动力学学报, 2017, 35(4):588-597. ZHENG C Y, HUANG J T, ZHOU Z, et al. Multidisciplinary optimization design of high dimensional target space for flying wing airfoil[J]. Acta Aerodynamica Sinica, 2017, 35(4):587-597(in Chinese). [18] 黄江涛, 刘刚, 周铸, 等. 基于离散伴随方程求解梯度信息的若干问题研究[J]. 空气动力学学报, 2017, 35(4):554-562. HUANG J T, LIU G, ZHOU Z, et al. Investigation of gradient computation based on discrete adjoint method[J]. Acta Aerodynamica Sinica, 2017, 35(4):554-562(in Chinese). [19] VASSBERG J C, DEHAAN M A, RIVERS S M, et al. Development of a common research model for applied CFD validation studies:AIAA-2008-6919[R]. Reston, VA:AIAA, 2008. [20] 刘刚, 肖中云, 王建涛, 等. 考虑约束的机载导弹导轨发射数值模拟[J]. 空气动力学学报, 2015, 33(2):192-197. LIU G, XIAO Z Y, WANG J T, et al. Numerical simulation of missile air-launching process under rail slideway constraints[J]. Acta Aerodynamica Sinica, 2015, 33(2):192-197(in Chinese). [21] SPEKREIJSE S P, BOERSTOEL J W. An algorithm to check the topological validity of multiblock domain decompositions[C]//Proceedings of 6th International Conference on Numerical Grid Generation in Computational Field Simulations, 1998. |