Habituation based synaptic plasticity and organismic learning in a quantum perovskite

Author(s)

Zuo, Fan; Panda, Priyadarshini; Kotiuga, Michele; Mazzoli, Claudio; Zhou, Hua; Barbour, Andi; Wilkins, Stuart; Narayanan, Badri; Cherukara, Mathew; Zhang, Zhen; Sankaranarayanan, Subramanian K. R. S.; Rabe, Karin M.; Roy, Kaushik; Ramanathan, Shriram; Li, Jiarui; Kang, Mingu; Comin, Riccardo; ... Show more Show less

Abstract

A central characteristic of living beings is the ability to learn from and respond to their environment leading to habit formation and decision making. This behavior, known as habituation, is universal among all forms of life with a central nervous system, and is also observed in single-cell organisms that do not possess a brain. Here, we report the discovery of habituation-based plasticity utilizing a perovskite quantum system by dynamical modulation of electron localization. Microscopic mechanisms and pathways that enable this organismic collective charge-lattice interaction are elucidated by first-principles theory, synchrotron investigations, ab initio molecular dynamics simulations, and in situ environmental breathing studies. We implement a learning algorithm inspired by the conductance relaxation behavior of perovskites that naturally incorporates habituation, and demonstrate learning to forget: A key feature of animal and human brains. Incorporating this elementary skill in learning boosts the capability of neural computing in a sequential, dynamic environment.

Date issued

2017-08

URI

http://hdl.handle.net/1721.1/114676

Department

Massachusetts Institute of Technology. Department of Physics

Journal

Nature Communications

Publisher

Nature Publishing Group

Citation

Zuo, Fan et al. “Habituation Based Synaptic Plasticity and Organismic Learning in a Quantum Perovskite.” Nature Communications 8, 1 (August 2017): 240 © 2017 The Author(s)

Version: Final published version

ISSN

2041-1723