Hebbian Plasticity in CPG Controllers Facilitates Self-Synchronization for Human-Robot Handshaking - Archive ouverte HAL
Article Dans Une Revue Frontiers in Neurorobotics Année : 2018

Hebbian Plasticity in CPG Controllers Facilitates Self-Synchronization for Human-Robot Handshaking

Résumé

It is well-known that human social interactions generate synchrony phenomena which are often unconscious. If the interaction between individuals is based on rhythmic movements, synchronized and coordinated movements will emerge from the social synchrony. This paper proposes a plausible model of plastic neural controllers that allows the emergence of synchronized movements in physical and rhythmical interactions. The controller is designed with central pattern generators (CPG) based on rhythmic Rowat-Selverston neurons endowed with neuronal and synaptic Hebbian plasticity. To demonstrate the interest of the proposed model, the case of handshaking is considered because it is a very common, both physically and socially, but also, a very complex act in the point of view of robotics, neuroscience and psychology. Plastic CPGs controllers are implemented in the joints of a simulated robotic arm that has to learn the frequency and amplitude of an external force applied to its effector, thus reproducing the act of handshaking with a human. Results show that the neural and synaptic Hebbian plasticity are working together leading to a natural and autonomous synchronization between the arm and the external force even if the frequency is changing during the movement. Moreover, a power consumption analysis shows that, by offering emergence of synchronized and coordinated movements, the plasticity mechanisms lead to a significant decrease in the energy spend by the robot actuators thus generating a more adaptive and natural human/robot handshake.
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Dates et versions

hal-01811316 , version 1 (05-04-2024)

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Melanie Jouaiti, Lancelot Caron, Patrick Henaff. Hebbian Plasticity in CPG Controllers Facilitates Self-Synchronization for Human-Robot Handshaking. Frontiers in Neurorobotics, 2018, 12, pp.29. ⟨10.3389/fnbot.2018.00029⟩. ⟨hal-01811316⟩
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