In complex natural environments, sensory systems are constantly exposed to a large stream of inputs. Novel or rare stimuli, which are often associated with behaviorally important events, are typically processed differently than the steady sensory background, which has less relevance. Neural signatures of such differential processing, commonly referred to as novelty detection, have been identified on the level of EEG recordings as mismatch negativity and the level of single neurons as stimulus-specific adaptation. Here, we propose a multi-scale recurrent network with synaptic depression to explain how novelty detection can arise in the whisker-related part of the somatosensory thalamocortical loop. The architecture and dynamics of the model ...
The brain response to auditory novelty comprises two main EEG components: an early mismatch negativi...
The thalamus is a key brain element in the processing of sensory information. During the sleep and a...
Behavior is controlled by complex neural networks in which neurons process thousands of inputs. Howe...
In complex natural environments, sensory systems are constantly exposed to a large stream of inputs....
Stimulus-Specific Adaptation (SSA) to repetitive stimulation is a phenomenon that has been observed ...
Stimulus-specific adaptation (SSA) occurs when the spike rate of a neuron decreases with repetitions...
Stimulus-Specific Adaptation (SSA) to repetitive stimulation is a phenomenon that has been observed ...
Stimulus-specific adaptation (SSA) occurs when the spike rate of a neuron decreases with repetitions...
Implicit expectations induced by predictable stimuli sequences affect neuronal response to upcoming ...
Stimulus-specific adaptation (SSA) occurs when neurons decrease their responses to frequently-presen...
Learning to recognize and filter familiar, irrelevant sensory stimuli eases the computational burden...
Sensory processing requires reliable transmission of sensory information across multiple brain regio...
Cortical networks are dynamical systems whose task is to process information. However, in addition t...
Cortical networks are dynamical systems whose task is to process information. However, in addition t...
Neural responses to sudden changes can be observed in many parts of the sensory pathways at differen...
The brain response to auditory novelty comprises two main EEG components: an early mismatch negativi...
The thalamus is a key brain element in the processing of sensory information. During the sleep and a...
Behavior is controlled by complex neural networks in which neurons process thousands of inputs. Howe...
In complex natural environments, sensory systems are constantly exposed to a large stream of inputs....
Stimulus-Specific Adaptation (SSA) to repetitive stimulation is a phenomenon that has been observed ...
Stimulus-specific adaptation (SSA) occurs when the spike rate of a neuron decreases with repetitions...
Stimulus-Specific Adaptation (SSA) to repetitive stimulation is a phenomenon that has been observed ...
Stimulus-specific adaptation (SSA) occurs when the spike rate of a neuron decreases with repetitions...
Implicit expectations induced by predictable stimuli sequences affect neuronal response to upcoming ...
Stimulus-specific adaptation (SSA) occurs when neurons decrease their responses to frequently-presen...
Learning to recognize and filter familiar, irrelevant sensory stimuli eases the computational burden...
Sensory processing requires reliable transmission of sensory information across multiple brain regio...
Cortical networks are dynamical systems whose task is to process information. However, in addition t...
Cortical networks are dynamical systems whose task is to process information. However, in addition t...
Neural responses to sudden changes can be observed in many parts of the sensory pathways at differen...
The brain response to auditory novelty comprises two main EEG components: an early mismatch negativi...
The thalamus is a key brain element in the processing of sensory information. During the sleep and a...
Behavior is controlled by complex neural networks in which neurons process thousands of inputs. Howe...