Bayesian mechanics of classical, neural, and quantum systems
- Date
- January 17 (Wed) at 16:30 - 17:45, 2024 (JST)
- Speaker
-
- Takuya Isomura (Unit Leader, Brain Intelligence Theory Unit, RIKEN Center for Brain Science (CBS))
- Venue
- Seminar Room #359 (Main Venue)
- via Zoom
- Language
- English
- Host
- Shinichiro Fujii
(This is a joint seminar with iTHEMS Biology group.)
Bayesian mechanics is a framework that addresses dynamical systems that can be conceptualised as Bayesian inference. However, the elucidation of requisite generative models is required for empirical applications to realistic self-organising systems. This talk introduces that the Hamiltonian of generic dynamical systems constitutes a class of generative models, thus rendering their Helmholtz energy naturally equivalent to variational free energy under the identified generative model. The self-organisation that minimises the Helmholtz energy entails matching the system's Hamiltonian with that of the environment, leading to an ensuing emergence of their generalised synchrony. In short, these self-organising systems can be read as performing variational Bayesian inference of the interacting environment. These properties have been demonstrated with coupled oscillators, simulated and living neural networks, and quantum computers. This notion offers foundational characterisations and predictions regarding asymptotic properties of self-organising systems exchanging with the environment, providing insights into potential mechanisms underlying emergence of intelligence.
References
- T. Isomura, Bayesian mechanics of self-organising systems, arXiv:2311.10216 (2023), arXiv: 2311.10216
- T. Isomura, K. Kotani, Y. Jimbo, and K. J. Friston, Experimental validation of the free-energy principle with in vitro neural networks, Nature Communications 14, 4547 (2023), doi: 10.1038/s41467-023-40141-z
- T. Isomura, H. Shimazaki, and K. J. Friston, Canonical neural networks perform active inference, Communications Biology 5, 55 (2022), doi: 10.1038/s42003-021-02994-2
This is a closed event for scientists. Non-scientists are not allowed to attend. If you are not a member or related person and would like to attend, please contact us using the inquiry form. Please note that the event organizer or speaker must authorize your request to attend.