Maryam Tebyani scite author profile

We propose a modular architecture for neuromorphic closed-loop control based on bistable relaxation oscillator modules consisting of three spiking neurons each. Like its biological prototypes, this basic component is robust to parameter variation but can be modulated by external inputs. By combining these modules, we can construct a neural state machine capable of generating the cyclic or repetitive behaviors necessary for legged locomotion. A concrete case study for the approach is provided by a modular robot constructed from flexible plastic volumetric pixels, in which we produce a forward crawling gait entrained to the natural frequency of the robot by a minimal system of twelve neurons organized into four modules.

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3D Printing an Assembled Biomimetic Robotic Finger

Tebyani

Robbins

Asper

et al. 2020

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A Geometric Kinematic Model for Flexible Voxel-Based Robots

Tebyani¹,

Spaeth²,

Cramer³

et al. 2021

Preprint

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Voxel-based structures provide a modular, mechanically flexible periodic lattice which can be used as a soft robot through internal deformations. To engage these structures for robotic tasks, we use a finite element method to characterize the motion caused by deforming single degrees of freedom and develop a reduced kinematic model. We find that node translations propagate periodically along geometric planes within the lattice, and briefly show that translational modes dominate the energy usage of the actuators. The resulting kinematic model frames the structural deformations in terms of user-defined control and end effector nodes, which further reduces the model size. The derived Planes of Motion (POM) model can be equivalently used for forward and inverse kinematics, as demonstrated by the design of a tripod stable gait for a locomotive voxel robot and validation of the quasi-static model through physical experiments.

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Maryam Tebyani

Design and testing of FERVOR: FlexiblE and reconfigurable voxel-based robot

Neuromorphic Closed-Loop Control of a Flexible Modular Robot by a Simulated Spiking Central Pattern Generator

Spiking neural state machine for gait frequency entrainment in a flexible modular robot

3D Printing an Assembled Biomimetic Robotic Finger

A Geometric Kinematic Model for Flexible Voxel-Based Robots

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