Artículo
NeuroPod: a real-time neuromorphic spiking CPG applied to robotics
Autor/es | Gutiérrez Galán, Daniel
Domínguez Morales, Juan Pedro Pérez-Peña, Fernando Linares Barranco, Alejandro Jiménez Fernández, Ángel Francisco |
Departamento | Universidad de Sevilla. Departamento de Arquitectura y Tecnología de Computadores |
Fecha de publicación | 2020 |
Fecha de depósito | 2020-02-06 |
Publicado en |
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Resumen | Initially, robots were developed with the aim of making our life easier, carrying
out repetitive or dangerous tasks for humans. Although they were able
to perform these tasks, the latest generation of robots are being ... Initially, robots were developed with the aim of making our life easier, carrying out repetitive or dangerous tasks for humans. Although they were able to perform these tasks, the latest generation of robots are being designed to take a step further, by performing more complex tasks that have been carried out by smart animals or humans up to date. To this end, inspiration needs to be taken from biological examples. For instance, insects are able to optimally solve complex environment navigation problems, and many researchers have started to mimic how these insects behave. Recent interest in neuromorphic engineering has motivated us to present a real-time, neuromorphic, spike-based Central Pattern Generator of application in neurorobotics, using an arthropod-like robot. A Spiking Neural Network was designed and implemented on SpiNNaker. The network models a complex, online-change capable Central Pattern Generator which generates three gaits for a hexapod robot locomotion. Recon gurable hardware was used to manage both the motors of the robot and the real-time communication interface with the Spiking Neural Networks. Real-time measurements con rm the simulation results, and locomotion tests show that NeuroPod can perform the gaits without any balance loss or added delay. |
Identificador del proyecto | TEC2016-77785-P |
Cita | Gutiérrez Galán, D., Domínguez Morales, J.P., Pérez-Peña, F. y Linares Barranco, A. (2020). NeuroPod: a real-time neuromorphic spiking CPG applied to robotics. Neurocomputing, 381 (march 2020), 10-19. |
Ficheros | Tamaño | Formato | Ver | Descripción |
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NeuroPod.pdf | 1.417Mb | [PDF] | Ver/ | |