Pages that link to "Q69541021"

The following pages link to Nonlinear analysis and synthesis of receptive-field responses in the catfish retina. I. Horizontal cell leads to ganglion cell chain (Q69541021):

Displaying 50 items.

• The analysis of nonlinear synaptic transmission (Q30442620) (← links)
• Understanding spike-triggered covariance using Wiener theory for receptive field identification (Q30659996) (← links)
• Spike-interval triggered averaging reveals a quasi-periodic spiking alternative for stochastic resonance in catfish electroreceptors (Q34189690) (← links)
• On-line identification of sensory systems using pseudorandom binary noise perturbations (Q34271134) (← links)
• White noise analysis of Phycomyces light growth response system. I. Normal intensity range (Q34271234) (← links)
• Response dynamics and receptive-field organization of catfish ganglion cells (Q36411678) (← links)
• Dynamics of the ganglion cell response in the catfish and frog retinas (Q36433901) (← links)
• A computer program for graphical and iterative fitting of low and high order transfer functions to biological data (Q36522224) (← links)
• The identification of nonlinear biological systems: Wiener kernel approaches (Q38028082) (← links)
• The Neutrophil N-Formyl Peptide Receptor: Dynamics of Ligand-Receptor Interactions and Their Relationship to Cellular Responses (Q38522108) (← links)
• White-noise analysis in visual neuroscience (Q39613048) (← links)
• Volterra representation and Wiener-like identification of nonlinear systems: scope and limitations (Q39840954) (← links)
• Cross-correlation functions for a neuronal model (Q41472126) (← links)
• Neural representation of the acoustic biotope: on the existence of stimulus-event relations for sensory neurons (Q41483215) (← links)
• Spatio-Temporal Receptive Field Measurement of Retinal Neurons by Random Pattern Stimulation and Cross Correlation (Q41627215) (← links)
• Generation of Gaussian noise with improved quasi-white properties (Q41669633) (← links)
• System identification of point-process neural systems using probability based Volterra kernels. (Q41723405) (← links)
• Nonlinear modeling of dynamic interactions within neuronal ensembles using Principal Dynamic Modes. (Q42430677) (← links)
• A method for decoding the neurophysiological spike-response transform (Q42592463) (← links)
• Identifying cell class specific losses from serially generated electroretinogram components. (Q42969908) (← links)
• Interpretation of functional series expansions (Q43430964) (← links)
• Spike initiation by transmembrane current: a white-noise analysis (Q43640433) (← links)
• Vestibular integrator neurons have quadratic functions due to voltage dependent conductances (Q43810197) (← links)
• A family of quasi-white random signals and its optimal use in biological system identification. Part I: theory (Q43958816) (← links)
• Identification of synaptic interactions (Q44445060) (← links)
• Signal transduction and nonlinearities revealed by white noise inputs in the fast adapting crayfish stretch receptor (Q44463524) (← links)
• Optical pattern generator for visual research (Q44633672) (← links)
• Frequency-specific interaural level difference tuning predicts spatial response patterns of space-specific neurons in the barn owl inferior colliculus. (Q44789119) (← links)
• Dynamic characteristics of the receptive field of L-cells for monochromatic lights (Q45121915) (← links)
• A point process analysis of sensory encoding (Q47383898) (← links)
• The RF-cinematogram. A cross-correlation technique for mapping several visual receptive fields at once (Q48374314) (← links)
• Identification of MGB cells by Volterra kernels. I. Prediction of responses to species specific vocalizations (Q48552868) (← links)
• Quadratic sinusoidal analysis of voltage clamped neurons (Q51578166) (← links)
• The transducer and encoder of frog muscle spindles are essentially nonlinear. Physiological conclusions from a white-noise analysis. (Q52213443) (← links)
• The identification of nonlinear biological systems: Volterra kernel approaches. (Q52302269) (← links)
• The identification of nonlinear biological systems: Volterra kernel approaches. (Q52309751) (← links)
• Model of the cone-horizontal cell circuit in the catfish retina. (Q52431321) (← links)
• Nonlinear dynamic transfer characteristics of cells in the peripheral visual pathway of flies (Q52437645) (← links)
• Identification of MGB cells by volterra kernels. III. A glance into the black box. (Q52610823) (← links)
• Redundancy reducing processes in single neurons (Q52699168) (← links)
• Dynamic aspects of cat retinal ganglion cell's centre and surround mechanisms: A white noise analysis (Q52744021) (← links)
• Wiener-like system identification in physiology (Q52806715) (← links)
• Experimental analysis of a neural system: two modeling approaches. (Q52906786) (← links)
• Identification of Multi-Input Biological Systems (Q52914612) (← links)
• A dynamic model of the receptive field of L-cells in the carp retina (Q67322679) (← links)
• Dynamic characteristics of the receptive field of L-cells in the carp retina (Q67361959) (← links)
• A dynamic model of the receptive field of horizontal cells for monochromatic lights (Q67434338) (← links)
• Functional and anatomical correlation of afferent responses from the isolated semicircular canal (Q68815613) (← links)
• Spatio-temporal cross-correlation analysis of catfish retinal neurons (Q71034093) (← links)
• An analogue model of the luminosity-channel in the vertebrate cone retina. 3. Physiological correlates (Q71820224) (← links)