| Semilinear functional differential equations in Banach space WE Fitzgibbon Journal of Differential Equations 29 (1), 1-14, 1978 | 205 | 1978 |
| Global existence and boundedness of solutions to the extensible beam equation WE Fitzgibbon SIAM Journal on Mathematical Analysis 13 (5), 739-745, 1982 | 87 | 1982 |
| Strongly damped quasilinear evolution equations WE Fitzgibbon Journal of Mathematical Analysis and Applications 79 (2), 536-550, 1981 | 67 | 1981 |
| An outbreak vector-host epidemic model with spatial structure: the 2015–2016 Zika outbreak in Rio De Janeiro WE Fitzgibbon, JJ Morgan, GF Webb Theoretical Biology and Medical Modelling 14, 1-17, 2017 | 66 | 2017 |
| A mathematical model of the spread of feline leukemia virus (FeLV) through a highly heterogeneous spatial domain WE Fitzgibbon, M Langlais, JJ Morgan SIAM journal on mathematical analysis 33 (3), 570-588, 2001 | 65 | 2001 |
| Diffusion epidemic models with incubation and crisscross dynamics WE Fitzgibbon, ME Parrott, GF Webb Mathematical biosciences 128 (1-2), 131-155, 1995 | 54 | 1995 |
| Semilinear integrodifferential equations in Banach space WE Fitzgibbon Nonlinear Analysis: Theory, Methods & Applications 4 (4), 745-760, 1980 | 54 | 1980 |
| A reaction-diffusion system modeling direct and indirect transmission of diseases WE Fitzgibbon, M Langlais, JJ Morgan DISCRETE AND CONTINUOUS DYNAMICAL SYSTEMS SERIES B 4, 893-910, 2004 | 47 | 2004 |
| Simple models for the transmission of microparasites between host populations living on noncoincident spatial domains WE Fitzgibbon, M Langlais Structured population models in biology and epidemiology, 115-164, 2008 | 44 | 2008 |
| Stability for abstract nonlinear Volterra equations involving finite delay WE Fitzgibbon Journal of Mathematical Analysis and Applications 60, 429-434, 1977 | 36 | 1977 |
| Global existence and boundedness for a class of inhomogeneous semilinear parabolic systems WE Fitzgibbon, J Morgan, R Sanders Nonlinear Analysis: Theory, Methods & Applications 19 (9), 885-899, 1992 | 35 | 1992 |
| A mathematical model for indirectly transmitted diseases WE Fitzgibbon, M Langlais, JJ Morgan Mathematical Biosciences 206 (2), 233-248, 2007 | 31 | 2007 |
| A diffusive epidemic model on a bounded domain of arbitrary dimension WE Fitzgibbon, JJ Morgan | 31 | 1988 |
| Global existence and internal stabilization for areaction-diffusion system posed on non coincident spatial domains S Aniţa, WE Fitzgibbon, M Langlais Discrete and Continuous Dynamical Systems-B 11 (4), 805-822, 2009 | 29 | 2009 |
| Diffusive epidemic models with spatial and age dependent heterogeneity WE Fitzgibbon, ME Parrott, G Webb Discrete and Continuous Dynamical Systems 1 (1), 35-57, 1994 | 29 | 1994 |
| A diffusive epidemic model with criss-cross dynamics WE Fitzgibbon, CB Martin, JJ Morgan Journal of mathematical analysis and applications 184 (3), 399-414, 1994 | 28 | 1994 |
| Transformational paradigm for engineering and engineering technology education E Barbieri, W Fitzgibbon Proceedings of the 2008 IAJC-NAIT-IJME International Conference, Nashville, TN, 2008 | 23 | 2008 |
| Nonlinear diffusion WE Fitzgibbon, HF Walker (No Title), 1977 | 23 | 1977 |
| Existence of solutions for a class of weakly coupled semilinear elliptic systems WE Fitzgibbon, J Morgan Journal of differential equations 77 (2), 351-368, 1989 | 22 | 1989 |
| A degenerate reaction–diffusion system modeling atmospheric dispersion of pollutants WE Fitzgibbon, M Langlais, JJ Morgan Journal of mathematical analysis and applications 307 (2), 415-432, 2005 | 21 | 2005 |
Jeff MorganProfessor of Mathematics, University of Houston在 math.uh.edu 的电子邮件经过验证
