1. W. Ying, A multilevel adaptive approach for computational cardiology, Ph.D. Dissertation, Department of Mathematics, Duke University, May 2005.
2. D.G. Schaeffer, W.-J. Ying and X.-P. Zhao, Asymptotic approximation of an ionic model for cardiac restitution, Nonlinear Dynamics, Vol. 51, No. 1-2, pp. 189-198, 2008.
3. W.-J. Ying and N. Pourtaheri and C.S. Henriquez, Field stimulation of cells in suspension: use of a hybrid finite element method, Conference Proceedings. Annual International Conference of the IEEE Engineering in Medicine and Biology Society, New York, 2006.
4. D.G. Schaeffer, J.W. Cain, D.J. Gauthier, S.S. Kalb, R.A. Oliver, E.G. Tolkacheva, W.-J. Ying and W. Krassowska, An ionically based mapping model with memory for cardiac restitution, Bull. in Math. Bio., Vol. 69, No. 2, pp. 459-482, 2007.
5. W.-J. Ying and C.S. Henriquez, Hybrid finite element method for describing the electrical response of biological cells to applied fields, IEEE Transactions on Biomedical Engineering, Vol. 54, No. 4, pp. 611-620, 2007.
6. M.L. Hubbard and W.-J. Ying and C.S. Henriquez, Effect of gap junction distribution on impulse propagation in a monolayer of myocytes: a model study, Europace, Vol. 9 (suppl 6), pp. vi20-vi28, 2007.
7. W.-J. Ying and C.S. Henriquez, A kernel-free boundary integral method for elliptic boundary value problems, Journal of Computational Physics, Vol. 227, No. 2, pp. 1046-1074, 2007.
8. W.-J. Ying, D.J. Rose and C.S. Henriquez, Efficient fully implicit time integration methods for modeling cardiac dynamics, IEEE. Trans. Biomed. Engrg., Vol. 55, No. 12, pp. 2701-2711, 2008.
9. C. S. Henriquez and W.-J. Ying, The bidomain model of cardiac tissue: from microscale to macroscale, Cardiac Bioelectric Therapy, Springer, pp. 401-421, 2009.