In the attempt to build adaptive and intelligent machines, roboticists have looked at neuroscience for more than half a century as a source of inspiration for perception and control. More recently, neuroscientists have resorted to robots for testing hypotheses and validating models of biological nervous systems. Here, we give an overview of the work at the intersection of robotics and neuroscience and highlight the most promising approaches and areas where interactions between the two fields have generated significant new insights. We articulate the work in three sections, invertebrate, vertebrate and primate neuroscience. We argue that robots generate valuable insight into the function of nervous systems, which is intimately linked to beha...
The motivation behind this research topic was to cut across conventional boundaries that separate mo...
How can neural and morphological computations be effectively combined and realized in embodied close...
Abstract Biological and robotic grasp and manipulation are undeniably similar at the level of mechan...
In the attempt to build adaptive and intelligent machines, roboticists have looked at neuroscience f...
We are experiencing fast paced developments in robotics and neural sci-ences. Robots are becoming mo...
International audienceThe fields of artificial intelligence and bio-inspired robotics have proven to...
International audienceIn so-called ethorobotics and robot-supported social cognitive neuroscience, r...
Understanding why deep neural networks and machine learning algorithms act as they do is a difficult...
Abstract Neurorobots use accurate biological models of neurons to control the be-havior of biologica...
Brains are, at a fundamental level, biological computing machines. They transform a torrent of compl...
We consider the problem of sensorimotor co-ordination in mammals through the lens of vibrissal touch...
Complex brains evolved in order to comprehend and interact with complex environments in the real wor...
For many centuries, engineers were building upon mathematics and natural science principles from mec...
My dissertation focuses on three research problems to investigate how the robot's behavior leads to ...
The role of technology for the study of brain functions has always been fundamental in providing new...
The motivation behind this research topic was to cut across conventional boundaries that separate mo...
How can neural and morphological computations be effectively combined and realized in embodied close...
Abstract Biological and robotic grasp and manipulation are undeniably similar at the level of mechan...
In the attempt to build adaptive and intelligent machines, roboticists have looked at neuroscience f...
We are experiencing fast paced developments in robotics and neural sci-ences. Robots are becoming mo...
International audienceThe fields of artificial intelligence and bio-inspired robotics have proven to...
International audienceIn so-called ethorobotics and robot-supported social cognitive neuroscience, r...
Understanding why deep neural networks and machine learning algorithms act as they do is a difficult...
Abstract Neurorobots use accurate biological models of neurons to control the be-havior of biologica...
Brains are, at a fundamental level, biological computing machines. They transform a torrent of compl...
We consider the problem of sensorimotor co-ordination in mammals through the lens of vibrissal touch...
Complex brains evolved in order to comprehend and interact with complex environments in the real wor...
For many centuries, engineers were building upon mathematics and natural science principles from mec...
My dissertation focuses on three research problems to investigate how the robot's behavior leads to ...
The role of technology for the study of brain functions has always been fundamental in providing new...
The motivation behind this research topic was to cut across conventional boundaries that separate mo...
How can neural and morphological computations be effectively combined and realized in embodied close...
Abstract Biological and robotic grasp and manipulation are undeniably similar at the level of mechan...