代表性学术论文

英文期刊代表性论文:

[10].Shi, Y., Song, C., Chen, Y., Rao, H., & Yang, T. (2023). Complex Standard Eigenvalue Problem Derivative Computation for Laminar–Turbulent Transition Prediction. AIAA Journal, 61(8), 3404–3418.

[9]. Shi, Y., Lan, Q., Lan, X., Wu, J., Yang, T., & Wang, B. (2023). Robust optimization design of a flying wing using adjoint and uncertainty-based aerodynamic optimization approach. Structural and Multidisciplinary Optimization, 66(5), 110.

[8]. Shi, Y., He, Shun., Cui, G., Chen, G., & Liu, Y. (2023). Oscillation quenching and physical explanation on freeplay-based aeroelastic airfoil in transonic viscous flow. Chinese Journal of Aeronautics, 36(10), 124-136.

[7]ChenY., Rao, H., Deng, Y., Yang, T., Shi, Y.*, & Bai, J. (2023). Adjoint-based robust optimization design of laminar flow wing under flight condition uncertainties. Chinese Journal of Aeronautics, 36(6), 19-34.

[6]Yang, T., Chen, Y., Shi, Y.*, Hua, J., Qin, F., & Bai, J. (2022). Stochastic investigation on the robustness of laminar-flow wings for flight tests. AIAA Journal, 60(4), 2266-2286.

[5]Yang, T., Wang, Y., Shi, Y.*, Bai, J., Zhong, H., & Wang, M. (2022). Transition Prediction for Hybrid Laminar Flow Control Flight Test Considering Geometric Uncertainties. Journal of Aerospace Engineering, 35(6), 04022100.

[4]. Shi, Y., Mader, C. A., & Martins, J. R. (2021). Natural laminar flow wing optimization using a discrete adjoint approach. Structural and Multidisciplinary Optimization, 64(2), 541-562.

[3]. Shi, Y., Mader, C. A., He, S., Halila, G. L., & Martins, J. R. (2020). Natural laminar-flow airfoil optimization design using a discrete adjoint approach. AIAA Journal, 58(11), 4702-4722.

[2]. Shi, Y., Cao, T., Yang, T., Bai, J., Qu, F., & Yang, Y. (2020). Estimation and analysis of hybrid laminar flow control on a transonic experiment. AIAA Journal, 58(1), 118-132.

[1]. Shi, Y., Yang, T., Bai, J., Lu, L., & Wang, H. (2019). Research of transition criterion for semi-empirical prediction method at specified transonic regime. Aerospace Science and Technology, 88, 95-109.

中文期刊代表性论文:

[3]. 杨体浩,王一雯,王雨桐,史亚云*等(2022.基于离散伴随的层流翼优化设计方法.航空学报,43(12):236-255.

[2]. 王一雯,兰夏毓,史亚云*等(2022.考虑吸气影响的层流翼型梯度优化设计.航空学报,43(11):383-400.

[1]. 史亚云,郭斌,刘倩等(2019.基于能量观点的混合层流优化设计.北京航空航天大学学报,45(06):1162-1174.

专利

[5]. 史亚云等.一种通用化的基于线性稳定性理论的工程转捩预测方法.已授权. 

[4]. 史亚云等.不确定性相容的自然层流翼构型梯度优化设计方法.已授权. 

[3]. 史亚云等. 一种具有强可移植性的全局敏度分析方法.已授权.

[2]. 史亚云等.基于离散伴随的层流翼型优化方法.已授权.

[1]. 史亚云等.考虑横流的层流翼梯度优化方法.已授权.