We develop an artificial neural circuit for contour tracking and navigation inspired by the chemotaxis of the nematode Caenorhabditis elegans. In order to harness the computational advantages spiking neural networks promise over their non-spiking counterparts, we develop a network comprising 7−spiking neurons with non-plastic synapses which we show is extremely robust in track-ing a range of concentrations. Our “worm ” uses information regarding local temporal gradients in sodium chloride concentration to decide the instanta-neous path for foraging, exploration and tracking. A key neuron pair in the C. elegans chemotaxis network is the ASEL & ASER neuron pair, which capture the gradient of concentration sensed by the worm in their grade...
We propose a neural information processing system obtained by re-purposing the function of a biologi...
SummaryBrain circuits endow behavioral flexibility. Here, we study circuits encoding flexible chemot...
In the present thesis, we apply computational methods to the study of animal behaviour. Specifically...
We demonstrate a spiking neural network for navigation motivated by the chemotaxis network of Caenor...
Recently, a new type of Caenorhabditis elegans associative learning was reported, where nematodes le...
<div><p>The nematode <i>Caenorhabditis elegans</i> provides a unique opportunity to interrogate the ...
Increased efforts in the assembly and analysis of connectome data are providing new insights into th...
<div><p>Increased efforts in the assembly and analysis of connectome data are providing new insights...
For a considerable time, it has been the goal of computational neuroscientists to understand biologi...
Brain circuits endow behavioral flexibility. Here, we study circuits encoding flexible chemotaxis in...
The nematode Caenorhabditis elegans provides a unique opportunity to interrogate the neural basis of...
We train recurrent networks to control chemotaxis in a computer model of the nematode C. elegans. Th...
SummaryAnimals have a remarkable ability to track dynamic sensory information. For example, the nema...
Animals have a remarkable ability to track dynamic sensory information. For example, the nematode Ca...
Understanding the neural circuits and genes that underlie behavior is a fundamental question in the ...
We propose a neural information processing system obtained by re-purposing the function of a biologi...
SummaryBrain circuits endow behavioral flexibility. Here, we study circuits encoding flexible chemot...
In the present thesis, we apply computational methods to the study of animal behaviour. Specifically...
We demonstrate a spiking neural network for navigation motivated by the chemotaxis network of Caenor...
Recently, a new type of Caenorhabditis elegans associative learning was reported, where nematodes le...
<div><p>The nematode <i>Caenorhabditis elegans</i> provides a unique opportunity to interrogate the ...
Increased efforts in the assembly and analysis of connectome data are providing new insights into th...
<div><p>Increased efforts in the assembly and analysis of connectome data are providing new insights...
For a considerable time, it has been the goal of computational neuroscientists to understand biologi...
Brain circuits endow behavioral flexibility. Here, we study circuits encoding flexible chemotaxis in...
The nematode Caenorhabditis elegans provides a unique opportunity to interrogate the neural basis of...
We train recurrent networks to control chemotaxis in a computer model of the nematode C. elegans. Th...
SummaryAnimals have a remarkable ability to track dynamic sensory information. For example, the nema...
Animals have a remarkable ability to track dynamic sensory information. For example, the nematode Ca...
Understanding the neural circuits and genes that underlie behavior is a fundamental question in the ...
We propose a neural information processing system obtained by re-purposing the function of a biologi...
SummaryBrain circuits endow behavioral flexibility. Here, we study circuits encoding flexible chemot...
In the present thesis, we apply computational methods to the study of animal behaviour. Specifically...