Pages that link to "Q52322095"
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The following pages link to Nonlinear models of the first synapse in the light-adapted fly retina. (Q52322095):
Displaying 19 items.
- Electrophysiological Method for Recording Intracellular Voltage Responses of Drosophila Photoreceptors and Interneurons to Light Stimuli In Vivo (Q28597520) (← links)
- Wiener-Volterra characterization of neurons in primary auditory cortex using poisson-distributed impulse train inputs (Q30481306) (← links)
- Peripheral Processing Facilitates Optic Flow-Based Depth Perception (Q30825068) (← links)
- Network adaptation improves temporal representation of naturalistic stimuli in Drosophila eye: I dynamics (Q33404077) (← links)
- Pattern-dependent response modulations in motion-sensitive visual interneurons--a model study. (Q33961461) (← links)
- Parallel cascade identification and its application to protein family prediction (Q34346432) (← links)
- Binocular integration of visual information: a model study on naturalistic optic flow processing. (Q34806390) (← links)
- Neuronal encoding of object and distance information: a model simulation study on naturalistic optic flow processing (Q35844735) (← links)
- Light adaptation in Drosophila photoreceptors: I. Response dynamics and signaling efficiency at 25 degrees C (Q36442032) (← links)
- Frequency-selective transmission of graded signals in large monopolar neurons of blowfly Calliphora vicina compound eye. (Q36907706) (← links)
- Information processing by graded-potential transmission through tonically active synapses. (Q41107527) (← links)
- GABAergic lateral interactions tune the early stages of visual processing in Drosophila (Q41574525) (← links)
- Microsaccadic sampling of moving image information provides Drosophila hyperacute vision. (Q41618389) (← links)
- On the computations analyzing natural optic flow: quantitative model analysis of the blowfly motion vision pathway. (Q51969873) (← links)
- Visual acuity for moving objects in first- and second-order neurons of the fly compound eye. (Q52552667) (← links)
- Photoreceptor performance and the co-ordination of achromatic and chromatic inputs in the fly visual system. (Q52578243) (← links)
- Extracellular potentials modify the transfer of information at photoreceptor output synapses in the blowfly compound eye. (Q52707323) (← links)
- A neuronally based model of contrast gain adaptation in fly motion vision. (Q52726203) (← links)
- Ca2+-Activated K+ Channels Reduce Network Excitability, Improving Adaptability and Energetics for Transmitting and Perceiving Sensory Information (Q92213844) (← links)