Nervous System Overview

... cochlea via the cochlear nerve and ultimately project to the primary auditory cortex • Vibrations of the basilar membrane excite more inner hair cells over a larger area • louder sound – triggers higher frequency of action potentials • Pitch depends on which part of basilar membrane vibrates – at pr ...

Nervous & Endocrine Systems

... 517 of your health book. You will need 4 different colors markers/pencils, for the: ...

1. What two communication systems run through the body

... TRANSDUCTION ...

Lecture 2: The Spinal Cord

... The ratio of white matter to gray matter increases from caudal to rostral ...

Document

... repetitions of stimulation. At some MGB sites ES triggered late excitatory responses at approximately 200 ms. The relationship between the location of electrical stimulation and its effect on different parts of the MGB are also being examined. This research was supported by GACR grant 309/04/1074. ...

The Brain Summary Notes

... The Thalamus lies above brainstem and is shaped like two eggs. Its function is to act as asensory switchboard (visual and auditory information as well as information about touch pressure temperature and pain). relaying incoming signals to appropriate brain regions. It does not relay sensory signals ...

Introduction to Computational Neuroscience

... b. Single neurons. We know very well how point neurons work (think Hodgkin Huxley). Dendrites. Lots of potential for incredibly complex processing. My guess: all they do is make neurons bigger and reduce wiring length (see the work of Mitya Chklovskii). How much I would bet that that’: 20 p. ...

Silencing brain cells with

... Mouse neuron expressing Arch gene. Photo brain functions,” explains Ed Boyden, senior author of the study, Image courtesy of Brian Chow, Xue Han and Ed to be published in the Jan. 7 issue of Nature. “Using these new Boyden/MIT tools, we can look at two neural pathways and study how they compute toge ...

Using the State-Space Paradigm to Analyze Information Representation in Neural Systems

... point process nature of neural encoding. The advent in the last 10 years of the capability to record with multiple electrode arrays the simultaneous spiking activity of many neurons (¿100) has made it possible to study information encoding by ensembles rather than by simply single neurons. Hence, an ...

The Number of Cortical Neurons Used to See

... My results set a substantial lower bound (50) on the number of cortical cells contributing to seeing. The results of this study are an important step toward unraveling how we use neurons to see. 1.1 Primary Visual Cortex: simple and complex cells The retina is sensitive to light. It sends signals, b ...

Visuomotor neurons: ambiguity of the discharge or `motor` perception?

... towards the stimulus ŽB2.. This last condition is the critical one that allows to determine whether F4 visual receptive fields are coded in a non-retinotopic coordinate system: In the case of a retinotopically coded visual receptive field, the gaze deviation towards the visual stimulus should be acc ...

Hair cells

... Pressure waves moving thru cochlear duct create shearing forces between basilar & tectorial membranes, moving & bending stereocilia ...

Nervous SYS II

... • Some sensory receptors are specialized neurons while others are specialized cells that regulate neurons • Sensory neurons produce action potentials and their axons extend into the CNS ...

Control_Systems11

... systems of the body contribute toward ...

Project Report: Investigating topographic neural map development

... field is no longer isotropic, but stretched along a particular angle in order to detect edges and objects with a particular orientation. This is typically modeled as a Gabor function. With regard to stationary images, receptive fields are usually only modeled spatially, however, they have a temporal ...

Autonomic Nervous System

... • Epinephrine/norepinephrine also released from adrenal medulla ...

Investigating Nervous and Sensory Systems

... 1. to receive signals from the environment and from within the body through the sense organs 2. to process the information received, which can involve integration, modulation, learning, and memory 3. to produce a response in appropriate muscles or glands. Receptors are usually specialized cells outs ...

February 27

... diagnosis, demonstrate the breakdown in communication, and present their findings to their peers. ...

Slide 1 - Gatsby Computational Neuroscience Unit

... b. Single neurons. We know very well how point neurons work (think Hodgkin Huxley). Dendrites. Lots of potential for incredibly complex processing. My guess: all they do is make neurons bigger and reduce wiring length (see the work of Mitya Chklovskii). How much I would bet that that’s true: 20 p. ...

Central Nervous System (CNS)

... hemisphere in his brain that was causing constant seizures • His only hope of survival and brain development involved early surgery to sever the connections between the right and left hemispheres of the brain ...

Serre-Poggio_ACM_R2_finalSubmission

... position and scale of the stimulus within their receptive fields. As a result of this increase in invariance properties, the receptive field size of neurons increases, from about one degree or less in V1 to several degrees in IT. There is increasing evidence that IT, which has been critically linked ...

Introduction to the brain and behaviour

... brain structures that appear to be separated by a deep groove (longitudinal fissure) running from the front to back of the brain. They are connected at several points by strands of nerve tissue. They are referred to respectively as the left and right hemispheres. ...

Chapter 44 - Sensory Systems

... Sensory Systems Chapter 44 ...

Cortical remodelling induced by activity of ventral tegmental

... receptor antagonists) 30 min before pairing 9-kHz pulsed tones with VTA stimulation. After 20 pairing sessions identical to those used in other experimental animals the auditory cortices of these animals were indistinguishable from those of naõÈve controls. Neither the sizes of auditory cortex nor t ...

Motor control_6

... Components of a Somatic Sensory system Provides ...

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Feature detection (nervous system)

Feature detection is a process by which the nervous system sorts or filters complex natural stimuli in order to extract behaviorally relevant cues that have a high probability of being associated with important objects or organisms in their environment, as opposed to irrelevant background or noise. Feature detectors are individual neurons – or groups of neurons – in the brain which code for perceptually significant stimuli. Early in the sensory pathway feature detectors tend to have simple properties; later they become more and more complex as the features to which they respond become more and more specific. For example, simple cells in the visual cortex of the domestic cat (Felis catus), respond to edges – a feature which is more likely to occur in objects and organisms in the environment. By contrast, the background of a natural visual environment tends to be noisy – emphasizing high spatial frequencies but lacking in extended edges. Responding selectively to an extended edge – either a bright line on a dark background, or the reverse – highlights objects that are near or very large. Edge detectors are useful to a cat, because edges do not occur often in the background “noise” of the visual environment, which is of little consequence to the animal.

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Feature detection (nervous system)