Neuromorphic electronic systems exhibit advantageous characteristics, in terms of low energy consumption and low response latency, which can be useful in robotic applications that require compact and low power embedded computing resources. However, these neuromorphic circuits still face significant limitations that make their usage challenging: these include low precision, variability of components, sensitivity to noise and temperature drifts, as well as the currently limited number of neurons and synapses that are typically emulated on a single chip. In this paper, we show how it is possible to achieve functional robot control strategies using a mixed signal analog/digital neuromorphic processor interfaced to a mobile robotic platform equi...
This paper describes the design and modus of operation of a neuromorphic robotic platform based on S...
Animal sensory systems are essential both to survival and competition. They, and their analogs in ro...
Compared to classic robotics, biological nervous systems respond to stimuli in a fast and efficient ...
Neuromorphic electronic systems exhibit advantageous characteristics, in terms of low energy consump...
Neuromorphic hardware emulates dynamics of biological neural networks in electronic circuits offerin...
Neuromorphic hardware emulates dynamics of biological neural networks in electronic circuits offerin...
Event based sensors and neural processing architectures represent a promising technology for impleme...
An ever increasing amount of robotic platforms are being equipped with a new generation of neuromorp...
Neuromorphic engineering promises the deployment of low latency, adaptive and low power systems that...
Neuromorphic computing aims to mimic the computational principles of the brain in silico and has mot...
In this paper we present a complete spike-based architecture: from a Dynamic Vision Sensor (retina) ...
. Analog VLSI circuits implementing aspects of biological systems are attractive for the constructio...
Mixed-signal analog/digital neuromorphic circuits are characterized by ultra-low power consumption, ...
Mixed-signal analog/digital neuromorphic circuits are characterized by ultra-low power consumption, ...
Neuromorphic computing is promising to become a future standard in low-power AI applications. The in...
This paper describes the design and modus of operation of a neuromorphic robotic platform based on S...
Animal sensory systems are essential both to survival and competition. They, and their analogs in ro...
Compared to classic robotics, biological nervous systems respond to stimuli in a fast and efficient ...
Neuromorphic electronic systems exhibit advantageous characteristics, in terms of low energy consump...
Neuromorphic hardware emulates dynamics of biological neural networks in electronic circuits offerin...
Neuromorphic hardware emulates dynamics of biological neural networks in electronic circuits offerin...
Event based sensors and neural processing architectures represent a promising technology for impleme...
An ever increasing amount of robotic platforms are being equipped with a new generation of neuromorp...
Neuromorphic engineering promises the deployment of low latency, adaptive and low power systems that...
Neuromorphic computing aims to mimic the computational principles of the brain in silico and has mot...
In this paper we present a complete spike-based architecture: from a Dynamic Vision Sensor (retina) ...
. Analog VLSI circuits implementing aspects of biological systems are attractive for the constructio...
Mixed-signal analog/digital neuromorphic circuits are characterized by ultra-low power consumption, ...
Mixed-signal analog/digital neuromorphic circuits are characterized by ultra-low power consumption, ...
Neuromorphic computing is promising to become a future standard in low-power AI applications. The in...
This paper describes the design and modus of operation of a neuromorphic robotic platform based on S...
Animal sensory systems are essential both to survival and competition. They, and their analogs in ro...
Compared to classic robotics, biological nervous systems respond to stimuli in a fast and efficient ...