Abstract. The DAMNED simulator is a Distributed And Multithreaded Neural Event-Driven framework designed for implementing Spiking Neuron Networks (SNNs). This paper shows the power of DAMNED for simulating the tempo-ral dynamics of a biologically inspired model of the system controlling saccadic eye movements. A fundamental neural structure for the saccade generation is the Superior Colliculus (SC). The proposed model relies on two pathways leaving this structure: A first one supervises the motor error and the movement initiation and a second one provides a direct drive to premotor centers. This simple model, its SNN implementation and its dynamic behaviour reproduce the evolution of movement amplitude as a function of activity location in ...
How does the saccadic movement system select a target when visual, auditory, and planned movement co...
We investigate the role that superior colliculus (SC) and cerebellum (CBLM) might play in controllin...
Experimental evidence indicates that the superior colliculus (SC) is important but neither necessary...
International audienceThe DAMNED simulator is a Distributed And Multithreaded Neural Event-Driven fr...
Simulating spiking neuron networks with a sequential event-driven approach consumes less computation...
This dissertation research focused on computational systems neuroscience for modeling the major midb...
The subcortical saccade-generating system consists of the retina, superior colliculus, cerebellum an...
A new, distributed model of the primate oculomotor system is presented. This model generates saccade...
& Significant advances in cognitive neuroscience can be achieved by combining techniques used to...
A neural model is developed of the neural circuitry in the reticular formation that is used to gener...
ABSTRACT: How does the brain tell the eye where to go? Classical models of rapid eye movements are l...
We investigate the role that superior colliculus (SC) and cerebellum (CBLM) might play in controllin...
To date, realistic models of how the central nervous system governs behavior have been restricted in...
We are immersed in an environment full of sensory information, and without much thought or effort we...
The midbrain superior colliculus (SC) generates a rapid saccadic eye movement to a sensory stimulus ...
How does the saccadic movement system select a target when visual, auditory, and planned movement co...
We investigate the role that superior colliculus (SC) and cerebellum (CBLM) might play in controllin...
Experimental evidence indicates that the superior colliculus (SC) is important but neither necessary...
International audienceThe DAMNED simulator is a Distributed And Multithreaded Neural Event-Driven fr...
Simulating spiking neuron networks with a sequential event-driven approach consumes less computation...
This dissertation research focused on computational systems neuroscience for modeling the major midb...
The subcortical saccade-generating system consists of the retina, superior colliculus, cerebellum an...
A new, distributed model of the primate oculomotor system is presented. This model generates saccade...
& Significant advances in cognitive neuroscience can be achieved by combining techniques used to...
A neural model is developed of the neural circuitry in the reticular formation that is used to gener...
ABSTRACT: How does the brain tell the eye where to go? Classical models of rapid eye movements are l...
We investigate the role that superior colliculus (SC) and cerebellum (CBLM) might play in controllin...
To date, realistic models of how the central nervous system governs behavior have been restricted in...
We are immersed in an environment full of sensory information, and without much thought or effort we...
The midbrain superior colliculus (SC) generates a rapid saccadic eye movement to a sensory stimulus ...
How does the saccadic movement system select a target when visual, auditory, and planned movement co...
We investigate the role that superior colliculus (SC) and cerebellum (CBLM) might play in controllin...
Experimental evidence indicates that the superior colliculus (SC) is important but neither necessary...