The development of Spiking Neural Networks (SNN) and the discipline of Neuromorphic Engineering has resulted in a paradigm shift in how Machine Learning (ML) and Computer Vision (CV) problems are approached. At the heart of this shift is the adoption of event-based sensing and processing methods. The production of sparse and asynchronous events that are dynamically connected to the scene is possible with an event-based vision sensor, allowing for the acquisition of not just spatial data but also high-fidelity temporal data. In this work, we describe a novel method for performing instance segmentation of objects, only using their spatio-temporal movement patterns, by utilising the weights of an unsupervised Spiking Convolutional Neural Netwo...
Asynchronous event-based sensors, or “silicon retinae,” are a new class of vision sensors inspired b...
Mobile and embedded applications require neural networks-based pattern recognition systems to perfor...
Traditionally the Perception Action cycle is the first stage of building an autonomous robotic syste...
The development of Spiking Neural Networks (SNN) and the discipline of Neuromorphic Engineering has ...
Spiking Neural Networks (SNN) and the field of Neuromorphic Engineering has brought about a paradigm...
Event-based vision offers high dynamic range, time resolution and lower latency than conventional fr...
<p>Asynchronous event-based sensors, or “silicon retinae,” are a new class of vision sensors inspire...
Regardless of the marvels brought by the conventional frame-based cameras, they have significant dra...
Fast, localised motion detection is crucial for an efficient attention mechanism. We show that model...
International audienceWe developed a Spiking Neural Network composed of two layers that processes ev...
Taking inspiration from the structure and behaviourof the human visual system and using the Transpos...
This work was supported by the European Union’s ERA-NET CHIST-ERA 2018 research and innovation progr...
Apparent motion of the surroundings on an agent's retina can be used to navigate through cluttered e...
Leveraging the low-power, event-driven computation and the inherent temporal dynamics, spiking neura...
Asynchronous event-based sensors, or “silicon retinae,” are a new class of vision sensors inspired b...
Asynchronous event-based sensors, or “silicon retinae,” are a new class of vision sensors inspired b...
Mobile and embedded applications require neural networks-based pattern recognition systems to perfor...
Traditionally the Perception Action cycle is the first stage of building an autonomous robotic syste...
The development of Spiking Neural Networks (SNN) and the discipline of Neuromorphic Engineering has ...
Spiking Neural Networks (SNN) and the field of Neuromorphic Engineering has brought about a paradigm...
Event-based vision offers high dynamic range, time resolution and lower latency than conventional fr...
<p>Asynchronous event-based sensors, or “silicon retinae,” are a new class of vision sensors inspire...
Regardless of the marvels brought by the conventional frame-based cameras, they have significant dra...
Fast, localised motion detection is crucial for an efficient attention mechanism. We show that model...
International audienceWe developed a Spiking Neural Network composed of two layers that processes ev...
Taking inspiration from the structure and behaviourof the human visual system and using the Transpos...
This work was supported by the European Union’s ERA-NET CHIST-ERA 2018 research and innovation progr...
Apparent motion of the surroundings on an agent's retina can be used to navigate through cluttered e...
Leveraging the low-power, event-driven computation and the inherent temporal dynamics, spiking neura...
Asynchronous event-based sensors, or “silicon retinae,” are a new class of vision sensors inspired b...
Asynchronous event-based sensors, or “silicon retinae,” are a new class of vision sensors inspired b...
Mobile and embedded applications require neural networks-based pattern recognition systems to perfor...
Traditionally the Perception Action cycle is the first stage of building an autonomous robotic syste...