Brain–body states embody complex temporal dynamics
Daniel S. Kluger, Micah Allen, Joachim Groß
Abstract
We propose a computational framework for high-dimensional brain-body states as transient embodiments of nested internal and external dynamics governed by interoception. Unifying recent theoretical work, we suggest ways to reduce arbitrary state complexity to an observable number of features in order to accurately predict and intervene in pathological trajectories.
Topics & Concepts
InteroceptionObservablePsychologyDynamics (music)Cognitive scienceWork (physics)Transient (computer programming)Cognitive psychologyNeuroscienceStatistical physicsComputer sciencePhysicsPedagogyOperating systemThermodynamicsPerceptionQuantum mechanicsFunctional Brain Connectivity StudiesNeural dynamics and brain functionEEG and Brain-Computer Interfaces