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Disambiguation of "Braccini, Michele"

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The Impact of Self-loops in Random Boolean Network Dynamics: A Simulation Analysis.

, , and . WIVACE, volume 830 of Communications in Computer and Information Science, page 104-115. Springer, (2017)

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Tommaso Braccini

Michele Galletti

Michele Ocken

Michele Ferrari

Hannelore Michele

 

Other publications of authors with the same name

The Impact of Self-Loops on Boolean Networks Attractor Landscape and Implications for Cell Differentiation Modelling., , and . IEEE ACM Trans. Comput. Biol. Bioinform., 18 (6): 2702-2713 (2021)A Comparison Between Threshold Ergodic Sets and Stochastic Simulation of Boolean Networks for Modelling Cell Differentiation., , , and . WIVACE, volume 830 of Communications in Computer and Information Science, page 116-128. Springer, (2017)Self-loops Favour Diversification and Asymmetric Transitions Between Attractors in Boolean Network Models., , and . WIVACE, volume 900 of Communications in Computer and Information Science, page 30-41. Springer, (2018)A simplified model of chromatin dynamics drives differentiation process in Boolean models of GRN., , , , and . ALIFE, page 211-217. MIT Press, (2019)Automatic Design of Boolean Networks for Cell Differentiation., , , and . WIVACE, volume 708 of Communications in Computer and Information Science, page 91-102. (2016)Attractor Landscape: A Bridge between Robotics and Synthetic Biology., and . Complex Syst., (2018)The Impact of Self-loops in Random Boolean Network Dynamics: A Simulation Analysis., , and . WIVACE, volume 830 of Communications in Computer and Information Science, page 104-115. Springer, (2017)The Effects of a Simplified Model of Chromatin Dynamics on Attractors Robustness in Random Boolean Networks with Self-loops: An Experimental Study., , , , and . WIVACE, volume 1200 of Communications in Computer and Information Science, page 28-37. Springer, (2019)Online adaptation in robots as biological development provides phenotypic plasticity., , and . CoRR, (2020)On the Criticality of Adaptive Boolean Network Robots., , , and . Entropy, 24 (10): 1368 (2022)