Stability conditions for two predator one prey systems M. FarkasH. I. Freedman I. Stability and Persistence for Ecological Models Pages: 3 - 10
A unified approach to persistence Josef Hofbauer I. Stability and Persistence for Ecological Models Pages: 11 - 22
Reflections and calculations on a prey-predator-patch problem O. DiekmannJ. A. J. MetzM. W. Sabelis I. Stability and Persistence for Ecological Models Pages: 23 - 35
A homotopy technique for a linear generalization of volterra models Edoardo Beretta I. Stability and Persistence for Ecological Models Pages: 37 - 47
Cooperative systems theory and global stability of diffusion models Y. Takeuchi I. Stability and Persistence for Ecological Models Pages: 49 - 57
The n-person war of attrition John HaighChris Cannings II. Selection and Evolutionary Games Pages: 59 - 74
Mutation-selection models in population genetics and evolutionary game theory Reinhard Bürger II. Selection and Evolutionary Games Pages: 75 - 89
Pair formation in age-structured populations K. P. Hadeler III. Demography for Structured Populations Pages: 91 - 102
The Markov structure of population growth Peter Jagers III. Demography for Structured Populations Pages: 103 - 114
On a generalized mathematical model of the immune response Miloš Jílek IV. Mathematical Models of The Immune Response Pages: 115 - 123
Recent results in mathematical modeling of infectious diseases L. N. Belykh IV. Mathematical Models of The Immune Response Pages: 125 - 133
Applications of the mathematical model of immunological tolerance to immunoglobulin suppression and AIDS T. HrabaJ. Doleżal IV. Mathematical Models of The Immune Response Pages: 135 - 142
Distribution of recirculating lymphocytes: A stochastic model foundation R. R. MohlerZ. H. Farooqi IV. Mathematical Models of The Immune Response Pages: 143 - 153
Recent progress in 3-D computer simulation of tumor growth and treatment Werner Düchting V. Simulation and Control in Medicine Pages: 155 - 166
Mathematical simulation of the immunomodulating role of energy metabolism in support of synergism and antagonism of the compartments of an immune system Vasilij M. JanenkoConstantin L. Atoev V. Simulation and Control in Medicine Pages: 167 - 178
Interleukin 2 and immune response control mathematical model Daniela Přikrylová V. Simulation and Control in Medicine Pages: 179 - 189