Data from: Information-based centralization of locomotion in animals and robots
Neveln, Izaak D.; Tirumalai, Amoolya; Sponberg, Simon (2019), Data from: Information-based centralization of locomotion in animals and robots, Dryad, Dataset, https://doi.org/10.5061/dryad.4vk610r
The centralization of locomotor control from weak and local coupling to strong and global is hard to assess outside of particular modeling frameworks. We developed an empirical, model-free measure of centralization that compares information between control signals and both global and local states. A second measure, co-information, quantifies the net redundancy in global and local control. We first validate that our measures predict centralization in simulations of phase-coupled oscillators. We then test how centralization changes with speed in a freely running cockroach. Surprisingly, across all speeds centralization is constant and muscle activity is more informative of the global kinematic state (the averages of all legs) than the local state of that muscle’s leg. Finally we use a legged robot to show that mechanical coupling alone can change the centralization of legged locomotion. The results of these systems span a design space of centralization and co-information for biological and robotic systems.
National Science Foundation, Award: 1554790