Despite being well established in robotics, classical motor controllers have several disadvantages: they pose a high computational load, therefore requiring powerful devices, they are not easy to tune and they are not suited for neuroprosthetics. In contrast, bio-inspired controller do not transform the output of the controller therefore no delays are introduced and a smooth response is achieved; they also have a high scalability. Finally, the most important feature of bio-inspired controllers is that they could integrate learning features to make them adaptable to new tasks within the same hardware robotic platform. We present the model and simulation of a spiking neural network for low-level motor control. The proposed neural n...
Connecting biologically inspired neural simulations to physical or simulated embodiments can be usef...
In this work, a neural structure has been implemented into a device based on the new trends in hardw...
Abstract — This paper focuses on the study of a bio-inspired neural controller used to govern a mobi...
This paper presents an approach to open-loop motor control using Integrate and Fire (IF) neurons. T...
Sensory control based on biological computational paradigms can be implemented using low-power ana...
Perez-Peña F, Leñero-Bardallo JA, Linares-Barranco A, Chicca E. Towards Bioinspired Close-Loop Local...
An ever increasing amount of robotic platforms are being equipped with a new generation of neuromorp...
Despite the rapid development of robotic control theory, hardware motor controllers still suffer fro...
Compared to classic robotics, biological nervous systems respond to stimuli in a fast and efficient ...
Neuromorphic engineering promises the deployment of low latency, adaptive and low power systems that...
WOS: 000370402900001PubMed ID: 26321943In this article, we introduce the Bioinspired Neuroprosthetic...
Replicating natural human movements is a long-standing goal of robotics control theory. Drawing insp...
Compared to classic robotics, biological nervous systems respond to stimuli in a fast and efficient ...
Sensory control based on biological computational paradigms can be implemented using low-power analo...
The objective of this thesis is to analyze, design, simulate and implement a model that follows the ...
Connecting biologically inspired neural simulations to physical or simulated embodiments can be usef...
In this work, a neural structure has been implemented into a device based on the new trends in hardw...
Abstract — This paper focuses on the study of a bio-inspired neural controller used to govern a mobi...
This paper presents an approach to open-loop motor control using Integrate and Fire (IF) neurons. T...
Sensory control based on biological computational paradigms can be implemented using low-power ana...
Perez-Peña F, Leñero-Bardallo JA, Linares-Barranco A, Chicca E. Towards Bioinspired Close-Loop Local...
An ever increasing amount of robotic platforms are being equipped with a new generation of neuromorp...
Despite the rapid development of robotic control theory, hardware motor controllers still suffer fro...
Compared to classic robotics, biological nervous systems respond to stimuli in a fast and efficient ...
Neuromorphic engineering promises the deployment of low latency, adaptive and low power systems that...
WOS: 000370402900001PubMed ID: 26321943In this article, we introduce the Bioinspired Neuroprosthetic...
Replicating natural human movements is a long-standing goal of robotics control theory. Drawing insp...
Compared to classic robotics, biological nervous systems respond to stimuli in a fast and efficient ...
Sensory control based on biological computational paradigms can be implemented using low-power analo...
The objective of this thesis is to analyze, design, simulate and implement a model that follows the ...
Connecting biologically inspired neural simulations to physical or simulated embodiments can be usef...
In this work, a neural structure has been implemented into a device based on the new trends in hardw...
Abstract — This paper focuses on the study of a bio-inspired neural controller used to govern a mobi...