References

  1. J. Aracena, E. Goles, A. Moreira & L. Salinas (2009): On the robustness of update schedules in Boolean networks. Biosystems 97, pp. 1–8, doi:10.1016/j.biosystems.2009.03.006.
  2. J. Aracena, M. González, A. Zuñiga, M. A. Mendez & V. Cambiazo (2006): Regulatory network for cell shape changes during drosophila ventral furrow formation. Journal of Theoretical Biology 239, pp. 49–62, doi:10.1016/j.jtbi.2005.07.011.
  3. M. Cosnard & E. Goles (1997): Discrete state neural networks and energies. Neural Networks 10, pp. 327–334, doi:10.1016/S0893-6080(96)00081-0.
  4. P. Cull (1971): Linear analysis of switching nets. Biological Cybernetics 8, pp. 31–39, doi:10.1007/BF00270831.
  5. J. Demongeot, E. Goles, M. Morvan, M. Noual & S. Sené (2010): Attraction basins as gauges of robustness against boundary conditions in biological complex systems. PLoS One 5, pp. e11793, doi:10.1371/journal.pone.0011793.
  6. B. Elspas (1959): The theory of autonomous linear sequential networks. IRE Transactions on Circuit Theory 6, pp. 45–60, doi:10.1109/TCT.1959.1086506.
  7. E. Goles & M. Noual (2010): Block-sequential update schedules and Boolean automata circuits. In: Proceedings of Automata 2010. DMTCS, pp. 41–50.
  8. E. Goles-Chacc, F. Fogelman-Soulie & D. Pellegrin (1985): Decreasing energy functions as a tool for studying threshold networks. Discrete Applied Mathematics 12, pp. 261–277, doi:10.1016/0166-218X(85)90029-0.
  9. J. J. Hopfield (1982): Neural networks and physical systems with emergent collective computational abilities. Proceedings of the National Academy of Sciences of the USA 79, pp. 2554–2558.
  10. D. A. Huffman (1956): Information theory, chapter The synthesis of linear sequential coding networks. Academic Press.
  11. S. A. Kauffman (1969): Metabolic stability and epigenesis in randomly constructed genetic nets. Journal of Theoretical Biology 22, pp. 437–467, doi:10.1016/0022-5193(69)90015-0.
  12. S. A. Kauffman (1971): Current topics in developmental biology, chapter Gene regulation networks: a theory for their global structures and behaviors, pp. 145–181 6. Elsevier, doi:10.1016/S0070-2153(08)60640-7.
  13. W. S. McCulloch & W. Pitts (1943): A logical calculus of the ideas immanent in nervous activity. Journal of Mathematical Biophysics 5, pp. 115–133, doi:10.1007/BF02478259.
  14. L. Mendoza & E. R. Alvarez-Buylla (1998): Dynamics of the genetic regulatory network for Arabidopsis thaliana flower morphogenesis. Journal of Theoretical Biology 193(2), pp. 307–319, doi:10.1093/bioinformatics/15.7.593.
  15. M. Noual (2010): General transition graphs and Boolean automata circuits. Technical Report. École normale supérieure de Lyon. Hal-00452025.
  16. M. Noual (2011): Synchronism vs asynchronism in Boolean networks. Technical Report. École normale supérieure de Lyon. ArXiv:1104.4039.
  17. M. Noual & S. Sené (2011): Towards a theory of modelling with Boolean automata networks - I. Theorisation and observations. Technical Report. École normale supérieure de Lyon and Université d'Évry – Val d'Essonne. ArXiv:1111.2077.
  18. É. Remy, B. Mossé, C. Chaouiya & D. Thieffry (2003): A description of dynamical graphs associated to elementary regulatory circuits. Bioinformatics 19, pp. ii172–ii178, doi:10.1093/bioinformatics/btg1075.
  19. É. Remy, P. Ruet & D. Thieffry (2008): Graphic requirements for multistability and attractive cycles in a Boolean dynamical framework. Advances in Applied Mathematics 41, pp. 335–350, doi:10.1016/j.aam.2007.11.003.
  20. A. Richard & J.-P. Comet (2007): Necessary conditions for multistationarity in discrete dynamical systems. Discrete Applied Mathematics 155, pp. 2403–2413, doi:10.1016/j.dam.2007.04.019.
  21. A. Richard, J.-P. Comet & G. Bernot (2004): R. Thomas' modeling of biological regulatory networks: introduction of singular states in the qualitative dynamics. Fundamenta Informaticae 65, pp. 373–392.
  22. F. Robert (1986): Discrete iterations: a metric study. Springer Series in Computational Mathematics 6. Springer.
  23. F. Robert (1995): Les systèmes dynamiques discrets. Mathématiques & Applications 19. Springer.
  24. R. Thomas (1973): Boolean formalisation of genetic control circuits. Journal of Theoretical Biology 42, pp. 563–585, doi:10.1016/0022-5193(73)90247-6.
  25. R. Thomas (1981): On the relation between the logical structure of systems and their ability to generate multiple steady states or sustained oscillations. In: Numerical methods in the study of critical phenomena, Springer Series in Synergetics 9. Springer, pp. 180–193.
  26. R. A. H. Toledo (2005): Linear finite dynamical systems. Communications in Algebra 33, pp. 2977–2989, doi:10.1081/AGB-200066211.
Comments and questions to: eptcs@eptcs.org
For website issues: webmaster@eptcs.org