Abstract: Influenza A virus is recognized today as one of the most challenging viruses that threatens both human and animal health worldwide. Understanding the control mechanisms of influenza infection and dynamics is crucial and could result in effective future treatment strategies. Many kinetic models based on differential equations have been developed in recent decades to […]
Abstract: The complexity of biological models makes methods for their analysis and understanding highly desirable. Here, we demonstrate the orchestration of various novel coarse-graining methods by applying them to the mitotic spindle assembly checkpoint. We begin with a detailed fine-grained spatial model in which individual molecules are simulated moving and reacting in a three-dimensional space. […]
Abstract: We present an alternative voting system that aims at bridging the gap between pro-portional representative systems and majoritarian electoral systems. The system lets people vote for multiple party lists, but then assigns each ballot paper to a single party. This opens a whole range of possible parliaments, all proportionally representative. We show theoretically that […]
Florian Centler; Christoph Kaleta; Pietro Speroni di Fenizio; Peter Dittrich (2010), A parallel algorithm to compute chemical organizations in biological networks, Bioinformatics Applications Note 26 (14), 1788 – 1789
F. Centler; C. Kaleta; P. Speroni di Fenizio; Peter Dittrich, Computing Chemical Organizations in Biological Networks
Bioinformatics 2008; doi: 10.1093/bioinformatics/btn228
Christoph Kaleta; Florian Centler; Pietro Speroni di Fenizio; Peter Dittrich. Phenotype prediction in regulated metabolic networks. BMC Systems Biology, 2:37, 2008
Peter Dittrich, Pietro Speroni di Fenizio (2007), Chemical Organization Theory, Bull. Math. Biol., 69(4):1199-1231, 2007
Naoki Matsumaru, Florian Centler, Pietro Speroni di Fenizio, Peter Dittrich, Chemical Organization Theory as a Theoretical Base for Chemical Computing, International Journal of Unconventional Computing, 3(4), January 2007
Naoki Matsumaru, Florian Centler, Pietro Speroni di Fenizio, Peter Dittrich, Chemical organization theory applied to virus dynamics
it – Information Technology, 48(3), 154-160, March 2006
Pietro Speroni di Fenizio, Peter Dittrich. Artificial Chemistry’s Global Dynamic. Movement in the Lattice of Organisations invited paper for: HC2002. Fifth International Conference on Humans and Computers, Aizu. reprinted for: The Journal of Three Dimensional Images, 16(4):160-163.
Pietro Speroni di Fenizio, Artificial Chemistries (an introduction), Bulletin of the European Association for Theoretical Computer Science 76(2002),128-141.