Your search keyword '"Solimano, F."' showing total 9 results

1. Some results about nonlinear chemical systems represented by trees and cycles

Author

Beretta, E., Vetrano, F., Solimano, F., and Lazzari, C.

Abstract

Abstract: Using linear stability analysis, the qualitative stability properties of open nonlinear chemical systems, in which reactions of any order may occur, will be studied. Systems will be classified in three fundamental classes: trees, cycles and loops, according to their knot graphs. The study of the Jacobian matrix for the kinetic equations of the system shows that the symmetrizability by a particular procedure (calledD-symmetrizability) is a sufficient condition for stability. It has been proved that tree-graphs always satisfy the above condition. For the cycle-graphs, theD-symmetrizability condition leads to a cyclic relation between forward and reverse steady state flows. The stability may be assured, even if the cyclic relation is not satisfied, providing that the “symmetry breaking” be lower than an upper bound; further alternative criteria for stability of cycles have been derived. All these results are independent of the number of diffusive exchanges with the environment.

Published

1979

2. Stability in chemostat equations with delayed nutrient recycling

Author

Beretta, E., Bischi, G. I., and Solimano, F.

Abstract

The growth of a species feeding on a limiting nutrient supplied at a constant rate is modelled by chemostat-type equations with a general nutrient uptake function and delayed nutrient recycling. Conditions for boundedness of the solutions and the existence of non-negative equilibria are given for the integrodifferential equations with distributed time lags. When the time lags are neglected conditions for the global stability of the positive equilibrium and for the extinction of the species are provided. The positive equilibrium continues to be locally stable when the time lag in recycling is considered and this is proved for a wide class of memory functions. Computer simulations suggest that even in this case the region of stability is very large, but the solutions tend to the equilibrium through oscillations.

Published

1990

3. Existence of a globally asymptotically stable equilibrium in Volterra models with continuous time delay

Author

Solimano, F. and Beretta, E.

Abstract

A sufficient condition for the existence of a globally asymptotically stable equilibrium in Volterra models with continuous time delay is obtained, and some properties of the stable equilibrium are proven. Furthermore, some applications in which asymptotic stability only depends on the sign of the coefficients are considered.

Published

1983

4. Global stability and oscillations in classical Lotka-Volterra loops

Author

Roy, A. B. and Solimano, F.

Abstract

The paper considers the classical Volterra system of n (? 3) species in predator-prey relation forming a loop, and derives some global properties of its solutions. Sufficient conditions for global asymptotic stability in terms of parameters are obtained, and also the region of global boundedness in the parameter space is indicated. Lastly a three species system is discussed in detail in relation to its global stability, unboundedness of solutions, existence of periodic and non-periodic oscillations.

Published

1987

5. Oscillations in a system with material cycling

Author

Beretta, E., Bischi, G. I., and Solimano, F.

Abstract

We study a system of two integrodifierential equations which models the evolution of a biotic species feeding on an abiotic resource. We also consider nutrient recycling with time delay. By Hopf bifurcation theory we prove the existence of stable oscillations for a range of values of the input of nutrients.

Published

1988

6. Global stability of partially closed food-chains with resources

Author

Roy, A. and Solimano, F.

Abstract

Abstract: We consider the existence and global stability of aq-member equilibrium (1≤q≤n) in partially closed food-chains of lengthn having an abiotic component as resource. We observe that such existence demands bounds of resource supply rate and these bounds are weighted sums of interaction coefficients. Particular results of global sector-stability of partially feasible equilibria of simple food-chains obeying Lotka-Volterra dynamics are shown. Lastly the elasticity of such food-chains when a new species is introduced at the highest trophic level is investigated.

Published

1986

7. An optimal time control problem for the administration of 2′,3′-dideoxycytidine by using red blood cells as bioreactors

Author

Beretta, E. and Solimano, F.

Abstract

Abstract: The problem of optimal dosage is studied for the administration of ddCyd using erythrocytes as carriers and bioreactors. The volume of erythrocytes and the initial amount of drug to be loaded have to be determined in such a way that the duration of the therapeutic effect is maximized without exceeding the toxic threshold. It is found that the optimal control is unique and it is at the upper vertex of the set of the admissible controls. A more general case is also briefly discussed.

Published

1993

8. A nonlinear three-compartiment model for the administration of 2′,3′-dideoxycytidine by using red blood cells as bioreactors

Author

Solimano, F., Bischi, G., Bianchi, M., Rossi, L., and Magnani, M.

Abstract

Abstract: A non-linear three-compartment model is proposed to describe a new strategy for the administration of 2′,3′-dideoxycytidine (ddCyd) in the treatment of HIV infections. The drug is injected after having been encapsulated in a non-diffusible form (ddCMP) into erythrocytes. Nummerical solutions show that by this treatment the highest ddCyd blood concentration is strongly reduced and in turn its toxicity, while long-lasting therapeutic effect is assured. The model is compared with experimental data in vitro.

Published

1990

9. Graph theoretical criteria for stability and boundedness of predator-prey systems

Author

Solimano, F. and Beretta, E.

Abstract

Abstract: We introduce a graphical approach in the study of the qualitative behavior ofm species predator-prey systems. We prove that tree graphs imply global stability for Volterra models and local stability for general models; furthermore, we derive sufficient conditions so that loop graphs imply stability and boundedness of the solutions.

Published

1982