[1] C.S. Ding, R.R. Deokar, H.J. Lian, Y.J. Ding, G.Y. Li, X.Y. Cui, K.K. Tamma. S.P.A. Bordas. Resolving high frequency issues via proper orthogonal decomposition based dynamic isogeometric analysis for structures with dissimilar materials. Computer Methods in Applied Mechanics and Engineering. 359(2020)112753.
[2] C.S. Ding, R.R. Deokar, Y.J. Ding, G.Y. Li, K.K. Tamma, X.Y. Cui, S.P.A. Bordas. Model order reduction accelerated Monte Carlo stochastic isogeometric method for the analysis of structures with high-dimensional and independent material uncertainties. Computer Methods in Applied Mechanics and Engineering, 349(2019) 266-284.
[3] C.S. Ding, X.B. Hu, X.Y. Cui, G.Y. Li, Y. Cai, K.K. Tamma, Isogeometric generalized nth order perturbation-based stochastic method for exact geometric modeling of (composite) structures: Static and dynamic analysis with random material parameters. Computer Methods in Applied Mechanics and Engineering, 346(2019) 1002-1024.
[4] C.S. Ding, X.Y. Cui, G.Y. Huang, G.Y. Li, K.K. Tamma, Exact and efficient isogeometric reanalysis of accurate shape and boundary modifications. Computer Methods in Applied Mechanics and Engineering,318(2017) 619-635.
[5] C.S. Ding, K.K. Tamma, H. Lian, Y. Ding, T.J. Dodwell, S.P.A. Bordas, Uncertainty Quantification of spatially uncorrelated loads with a reduced-order stochastic isogeometric method. Computational Mechanics 67 (2021) 1255–1271.
[6] C.S. Ding, X.Y. Cui, R.R. Deokar, G.Y. Li, Y. Cai, K.K. Tamma, Proper orthogonal decomposition Monte Carlo simulation based isogeometric stochastic method for material, geometric and force multi-dimensional uncertainties. Computational Mechanics, 63(3) (2019)521-533.
[7] C.S. Ding, X.Y, Cui, G.Y. Li, Accurate analysis and thickness optimization of tailor rolled blanks based on isogeometric analysis. Structural and Multidisciplinary Optimization, 54(4) (2016) 871-887.
[8] C.S. Ding, K.K. Tamma, Y.J. Ding, X.Y. Cui, G.Y. Li, S.P.A. Bordas. A n-th order perturbation based stochastic isogeometric method for quantifying geometric uncertainty in shell structures. Advances in Engineering Software, 148 (2020) 102866.
[9] C.S. Ding, X.Y. Cui, R.R. Deokar, G.Y. Li, Y. Cai, K.K. Tamma, Modeling and simulation of steady heat transfer analysis with material uncertainty: Generalized nth order perturbation isogeometric stochastic method. Numerical Heat Transfer, Part A: Applications. 74(09) (2018)1565-1582. (IF= 2.928, JCR Q2)
[10] C.S. Ding, X.Y. Cui, R R. Deokar, G.Y. Li, Y. Cai, K.K. Tamma, An isogeometric independent coefficients (IGA-IC) reduced order method for accurate and efficient transient nonlinear heat conduction analysis. Numerical Heat Transfer, Part A: Applications, 73(10) (2018) 667-684.
[11] C.S. Ding, X.Y. Cui, G.X. Huang, G.Y. Li, K.K. Tamma, Isogeometric independent coefficients method for fast reanalysis of structural modifications. Engineering Computations. 37(4) (2019) 1341-1368.
[12] C.S. Ding, X.Y. Cui, G.X. Huang, G.Y. Li, Y. Cai, K.K. Tamma, A gradient-based shape optimization scheme via isogeometric exact reanalysis. Engineering Computations, 35 (8) (2018) 2696-2721.
[13] C.S. Ding, X.Y. Cui, G.Y. Li, A multi-level refinement adaptive scheme with high efficiency and accuracy, Engineering Computations, 33(7) (2016) 2216-2236.
[14] B. Wang, Y. Cai*, X.Y. Cui, C.S. Ding*, Z.C. Li,Stochastic stable node-based smoothed finite element method for uncertainty and reliability analysis of thermo-mechanical problems. Engineering Analysis with Boundary Elements 114 (2020) 23-44.
[15] L.L. Chen, Y. Zhang, H. Lian∗, E. Atroshchenko, C.S. Ding∗, S.P.A. Bordas, Seamless integration of computer-aided geometric modeling and acoustic simulation: isogeometric boundary element methods based on Catmull-Clark subdivision surfaces. Advances in Engineering Software 149 (2020). 102879.