HyperNCA: Growing Developmental Networks with Neural Cellular Automata

Add code
Apr 25, 2022
Elias Najarro, Shyam Sudhakaran, Claire Glanois, Sebastian Risi
Figure 1 for HyperNCA: Growing Developmental Networks with Neural Cellular Automata
Figure 2 for HyperNCA: Growing Developmental Networks with Neural Cellular Automata
Figure 3 for HyperNCA: Growing Developmental Networks with Neural Cellular Automata
Figure 4 for HyperNCA: Growing Developmental Networks with Neural Cellular Automata

Share this with someone who'll enjoy it:

Twitter IconFacebook IconLinkedin IconWhatsapp IconMessenger Icon

In contrast to deep reinforcement learning agents, biological neural networks are grown through a self-organized developmental process. Here we propose a new hypernetwork approach to grow artificial neural networks based on neural cellular automata (NCA). Inspired by self-organising systems and information-theoretic approaches to developmental biology, we show that our HyperNCA method can grow neural networks capable of solving common reinforcement learning tasks. Finally, we explore how the same approach can be used to build developmental metamorphosis networks capable of transforming their weights to solve variations of the initial RL task.

* Paper accepted as a conference paper at ICLR 'From Cells to Societies' workshop 2022  
View paper onarxiv iconopen_review iconOpenReview

Share this with someone who'll enjoy it:

Twitter IconFacebook IconLinkedin IconWhatsapp IconMessenger Icon