Dendritic Spikes Amplify the Synaptic Signal to Enhance Detection of Motion in a Simulation of the Direction-Selective Ganglion Cell.
Michael J. SchachterNicholas OeschRobert G. SmithW. Rowland TaylorPublished in: PLoS Comput. Biol. (2010)
Keyphrases
- spiking neural networks
- signal detection
- image sequences
- action potentials
- spiking neurons
- motion model
- motion estimation
- microscopy images
- false alarm probability
- object detection
- false alarms
- feed forward
- simulation model
- slowly varying
- motion parameters
- human motion
- detection algorithm
- detection method
- frequency domain
- space time
- spike trains
- moving objects
- false positives
- power line
- signal processing
- feature points
- matched filter
- cell segmentation
- biologically inspired
- optical flow
- motion field
- motion analysis
- detection rate
- weak signal
- dendritic spines
- low signal to noise ratio
- motion capture
- motion patterns
- humanoid robot
- neural network
- camera motion
- spatial and temporal