Number of items: **9**.

Bueno-Orovio, A. and Kay, D. and Grau, V. and Rodriguez, B. and Burrage, K. (2013) Fractional diffusion models of cardiac electrical propagation: role of structural heterogeneity in dispersion of repolarization. Nature Communications . (Submitted)

Zhou, X. and Bueno-Orovio, A. and Orini, M. and Hanson, B. and Haywood, M. and Taggart, P. and Lambiase, P. and Burrage, K. and Rodriguez, B. (2013) Population of human ventricular cell models calibrated with in vivo measurements unravels ionic mechanisms of cardiac alternans. In: Computing in Cardiology Conference. (Submitted)

Bueno-Orovio, A. and Kay, D. and Burrage, K. (2012) Fourier spectral methods for fractional-in-space reaction-diffusion equations. Journal of Computational Physics . (Submitted)

Séguis, J. - C. and Burrage, K. and Erban, R. and Kay, D. (2012) Simulation of cell movement through evolving environment: a fictitious domain approach. Journal of Computational Physics . (Submitted)

Burrage, K. and Hale, Nicholas and Kay, David (2011) An efficient implementation of an implicit FEM scheme for fractional-in-space reaction-diffusion equations. Technical Report. SIAM. (Submitted)

Székely Jr., T. and Burrage, K. and Erban, R. and Zygalakis, K. C. (2011) Higher-order numerical methods for stochastic simulation of

chemical reaction systems. Journal of Chemical Physics . (Submitted)

Yates, C. A. and Burrage, K. (2011) Look before you leap: a confidence-based method for selecting species criticality while avoiding negative populations in -leaping. The Journal of Chemical Physics, 134 (8). 084109-1.

Mélykúti, B. and Burrage, K. and Zygalakis, K. C. (2010) Fast stochastic simulation of biochemical reaction systems by

alternative formulations of the Chemical Langevin Equation. Not specified . (Submitted)

Nicolau jr, D. V. and Burrage, K. and Nicolau, D. V. and Maini, P. K. (2008) 'Extremotaxis': Computing with a bacterial-inspired algorithm. Biosystems, 94 (1-2). pp. 47-54.

This list was generated on **Mon Mar 2 10:26:22 2015 GMT**.