We study the robustness and stability of the yeast cell regulatory network by
using a general inhomogeneous discrete model. We find that inhomogeneity, on
average, enhances the stability of the biggest attractor of the dynamics and
that the large size of the basin of attraction is robust against changes in the
parameters of inhomogeneity. We find that the most frequent orbit, which
represents the cell-cycle pathway, has a better biological meaning than the one
exhibited by the homogeneous model.Comment: 5 pages, 1 figur

.Joxan Jaffar

A. Colmerauer

A. Oplobedu

I. S. V. Telerman

J. Jaffar

K. R. Apt

P. Hentenryck Van

P. Klint

P. V. Hentenryck

English

arXiv

Apt KR

SCHAERF, Andrea

Archivio istituzionale della ricerca - Università degli Studi di Udine

The Alma project, or how first-order logic can help us in imperative programming

Apt, K.R. (Krzysztof)

Schaerf, A.

CWI's Institutional Repository

Lucas Wardil

Jafferson Kamphorst L. da Silva

Crossref

A discrete inhomogeneous model for the yeast cell cycle

Apt, Krzysztof

NARCIS 

The Alma Project, or How First-Order Logic Can Help us in Imperative Programming

The aim of the project is the design of a strongly typed constraint programming language that combines the advantages of logic and imperative programming. The first stage of the project was the design and implementation of Alma-0, a small programming language that provides a support for declarative programming within the imperative programming framework. It is obtained by extending a subset of Modula-2 by a small number of features inspired by the logic programming paradigm. In this paper we discuss the rationale for the design of Alma-0, the benefits of the resulting hybrid programming framework, and the current work on adding constraint processing capabilities to the language. In particular, we discuss the role of the logical and customary variables, the interaction between the constraint store and the program, and the need for lists

Krzysztof R. Apt

Andrea Schaerf

CiteSeerX

The Alma Project, or How First-Order Logic Can Help Us in Imperative Programming

http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.44.800

A discrete inhomogeneous model for the yeast cell cycle

Abstract

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Archivio istituzionale della ricerca - Università degli Studi di Udine

CWI's Institutional Repository

Crossref

NARCIS

Crossref

CiteSeerX