Linares-Barranco A, Perez-Peña F, Jimenez-Fernandez A, Chicca E. ED-BioRob: A Neuromorphic Robotic Arm With FPGA-Based Infrastructure for Bio-Inspired Spiking Motor Controllers. Frontiers in Neurorobotics. 2020;14: 590163.Compared to classic robotics, biological nervous systems respond to stimuli in a fast and efficient way regarding the body motor actions. Decision making, once the sensory information arrives to the brain, is in the order of ms, while the whole process from sensing to movement requires tens of ms. Classic robotic systems usually require complex computational abilities. Key differences between biological systems and robotic machines lie in the way information is coded and transmitted. A neuron is the “basic” element that co...
This paper presents an implementation of a neuro-inspired algorithm called VITE (Vector Integration...
Neuromorphic engineering tries to mimic biological information processing. Address-Event Representa...
WOS: 000370402900001PubMed ID: 26321943In this article, we introduce the Bioinspired Neuroprosthetic...
Compared to classic robotics, biological nervous systems respond to stimuli in a fast and efficient ...
Compared to classic robotics, biological nervous systems respond to stimuli in a fast and efficient ...
Neuromorphic engineering is a growing and promising discipline nowadays. Neuro-inspiration and bra...
In this paper we present a complete spike-based architecture: from a Dynamic Vision Sensor (retina) ...
This paper presents a spike-based control system applied to a fixed robotic platform. Our aim is to...
In this paper, we present two versions of a hardware processing architecture for modeling large netw...
This paper presents an approach to open-loop motor control using Integrate and Fire (IF) neurons. T...
An ever increasing amount of robotic platforms are being equipped with a new generation of neuromorp...
Neuromorphic electronic systems exhibit advantageous characteristics, in terms of low energy consump...
The objective of this thesis is to analyze, design, simulate and implement a model that follows the ...
Despite being well established in robotics, classical motor controllers have several disadvantages:...
Sensory control based on biological computational paradigms can be implemented using low-power ana...
This paper presents an implementation of a neuro-inspired algorithm called VITE (Vector Integration...
Neuromorphic engineering tries to mimic biological information processing. Address-Event Representa...
WOS: 000370402900001PubMed ID: 26321943In this article, we introduce the Bioinspired Neuroprosthetic...
Compared to classic robotics, biological nervous systems respond to stimuli in a fast and efficient ...
Compared to classic robotics, biological nervous systems respond to stimuli in a fast and efficient ...
Neuromorphic engineering is a growing and promising discipline nowadays. Neuro-inspiration and bra...
In this paper we present a complete spike-based architecture: from a Dynamic Vision Sensor (retina) ...
This paper presents a spike-based control system applied to a fixed robotic platform. Our aim is to...
In this paper, we present two versions of a hardware processing architecture for modeling large netw...
This paper presents an approach to open-loop motor control using Integrate and Fire (IF) neurons. T...
An ever increasing amount of robotic platforms are being equipped with a new generation of neuromorp...
Neuromorphic electronic systems exhibit advantageous characteristics, in terms of low energy consump...
The objective of this thesis is to analyze, design, simulate and implement a model that follows the ...
Despite being well established in robotics, classical motor controllers have several disadvantages:...
Sensory control based on biological computational paradigms can be implemented using low-power ana...
This paper presents an implementation of a neuro-inspired algorithm called VITE (Vector Integration...
Neuromorphic engineering tries to mimic biological information processing. Address-Event Representa...
WOS: 000370402900001PubMed ID: 26321943In this article, we introduce the Bioinspired Neuroprosthetic...