Month: February 2024

What ALife! Podcast Episode 01: Hiroki Sayama

Welcome to the first episode of the What ALife! Podcast! In this episode, I speak with Hiroki Sayama – Professor in the Department of Systems Science and Industrial Engineering, and the Director of the Binghamton Center of Complex Systems (CoCo), at Binghamton University (USA) – about all things cellular automata (CA): what they are, where they came from, what they are useful for; as well as his own ground-breaking work in CA systems in the late 90s. We also talk about continuous CA, and what the future of CA might look like.
We also discuss his more recent work modelling the spread of covid-19 and how artificial life researchers can help address complex societal problems, based on a ⁠short paper of the same name (direct.mit.edu/isal/proceedings/…2021/33/21/102961)

Listen at: soundcloud.com

Unsupervised Embedding of Trajectories Captures the Latent Structure of Scientific Migration

Binghamton Center of Complex Systems (CoCo) Seminar
January 24, 2024
Sadamori Kojaku (Systems Science and Industrial Engineering, Binghamton University)
“Unsupervised Embedding of Trajectories Captures the Latent Structure of Scientific Migration”

Watch at: vimeo.com

Emergence of a synergistic scaffold in the brains of human infants

Thomas F. Varley, Olaf Sporns, Nathan J. Stevenson, Martha G. Welch, Michael M. Myers, Sampsa Vanhatalo, Anton Tokariev

The human brain is a complex organ comprising billions of interconnected neurons which enables interaction with both physical and social environments. Neural dynamics of the whole brain go far beyond just the sum of its individual elements; a property known as “synergy”. Previously it has been shown that synergy is crucial for many complex brain functions and cognition, however, it remains unknown how and when the large number of discrete neurons evolve into the unified system able to support synergistic interactions. Here we analysed high-density electroencephalography data from late fetal to early postnatal period. We found that the human brain transitions from redundancy-dominated to synergy-dominated system around birth. Frontal regions lead the emergence of a synergistic scaffold comprised of overlapping subsystems, while the integration of sensory areas developed gradually, from occipital to central regions. Strikingly, early developmental trajectories of brain synergy were modulated by environmental enrichment associated with enhanced mother-infant interactions, and the level of synergy near term equivalent age was associated with later neurocognitive development

Read the full article at: www.biorxiv.org

School on Modelling Infectious Disease Dynamics.  May 6 – 12, 2024.  São Paulo, Brazil

The recent COVID-19 pandemic has demonstrated the power of modeling to support policymaking. However, most South American countries lack capacity in the field of modeling. This seven-day school will address how modeling allows us to use the health resources we currently have more efficiently, increasing their impact, improving people’s well-being, and saving lives as a result. The school includes a course on epidemic models, on numerical treatment of models and on epidemiological data analysis, and will be focused on group work involving “hands-on” modeling challenges. There will be classes in the morning and group projects in the afternoon. Participants from all areas related to the subject are welcome to apply. Knowledge of basic differential calculus is required.

Apply at: www.ictp-saifr.org