Lea Steffen scite author profile

Any visual sensor, whether artificial or biological, maps the 3D-world on a 2D-representation. The missing dimension is depth and most species use stereo vision to recover it. Stereo vision implies multiple perspectives and matching, hence it obtains depth from a pair of images. Algorithms for stereo vision are also used prosperously in robotics. Although, biological systems seem to compute disparities effortless, artificial methods suffer from high energy demands and latency. The crucial part is the correspondence problem; finding the matching points of two images. The development of event-based cameras, inspired by the retina, enables the exploitation of an additional physical constraint—time. Due to their asynchronous course of operation, considering the precise occurrence of spikes, Spiking Neural Networks take advantage of this constraint. In this work, we investigate sensors and algorithms for event-based stereo vision leading to more biologically plausible robots. Hereby, we focus mainly on binocular stereo vision.

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Controlling a Robot Arm for Target Reaching without Planning Using Spiking Neurons

Tieck

Steffen

Kaiser

et al. 2018

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Networks of Place Cells for Representing 3D Environments and Path Planning

Steffen

Silva

Ulbrich

et al. 2020

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Microsaccades for Neuromorphic Stereo Vision

Kaiser

Weinland

Keller

et al. 2018

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Reducing the Dimension of the Configuration Space with Self Organizing Neural Networks

Steffen

Glueck

Ulbrich

et al. 2021

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Lea Steffen

Neuromorphic Stereo Vision: A Survey of Bio-Inspired Sensors and Algorithms

Controlling a Robot Arm for Target Reaching without Planning Using Spiking Neurons

Networks of Place Cells for Representing 3D Environments and Path Planning

Microsaccades for Neuromorphic Stereo Vision

Reducing the Dimension of the Configuration Space with Self Organizing Neural Networks

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