Walk the Robot: Exploring Soft Robotic Morphological Communication driven by Spiking Neural Networks

• URL: http://arxiv.org/abs/2508.19920v1
• Date: Wed, 27 Aug 2025 14:26:58 GMT
• Title: Walk the Robot: Exploring Soft Robotic Morphological Communication driven by Spiking Neural Networks
• Authors: Matthew Meek, Guy Tallent, Thomas Breimer, James Gaskell, Abhay Kashyap, Atharv Tekurkar, Jonathan Fischman, Luodi Wang, Viet-Dung Nguyen, John Rieffel,
• Abstract summary: Recently, researchers have explored control methods that embrace nonlinear dynamic coupling instead of suppressing it.<n>Previous research with tensegrity-based robot designs has shown that evolutionary learning models that evolve spiking neural networks (SNN) as robot control mechanisms are effective for controlling non-rigid robots.<n>Our own research explores the emergence of morphological communication in an SNN-based simulated soft robot in theEvoGym environment.
• Score: 1.758175365127036
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Recently, researchers have explored control methods that embrace nonlinear dynamic coupling instead of suppressing it. Such designs leverage dynamical coupling for communication between different parts of the robot. Morphological communication refers to when those dynamics can be used as an emergent data bus to facilitate coordination among independent controller modules within the same robot. Previous research with tensegrity-based robot designs has shown that evolutionary learning models that evolve spiking neural networks (SNN) as robot control mechanisms are effective for controlling non-rigid robots. Our own research explores the emergence of morphological communication in an SNN-based simulated soft robot in theEvoGym environment.

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