WHY HAVE MULTIPLE CORTICAL AREAS?

... can be found that would greatly simplify the search for objects having the same direction and velocity of motion. and if‘ motion in the image was re-mapped in this w;~y one can imagine a single cell having access to information about the motion of all parts of an object, even when these occupied qui ...

Biology 232

... sensation – conscious or subconscious awareness of internal or external stimuli perception – conscious awareness and interpretation of sensations (occurs in thalamus and cerebral cortex) Basic Sensory Pathway 1) sensory receptor – specialized cell or dendrites that detect stimuli stimulus – change i ...

action potentials - Zanichelli online per la scuola

... cleft and binds to receptors on the motor end plate. ...

Nervous from Cyber

... Cells in which a signal begins are called pre-synaptic cells. Cells which receive the signal are called post-synaptic cells. There are two types of synapses: electrical and chemical. An electrical synapse allows the signal to spread directly from the pre-synaptic to the post-synaptic cells. Chemical ...

PowerPoint

... • When an impulse reaches the Axon Terminal, dozen of vesicles fuse with the cell membrane and discharge the Neurotransmitter into the Synaptic Cleft (GAP). • The molecules of the neurotransmitter diffuse across the gap and attach themselves to SPECIAL RECEPTORS on the membrane of the neuron receiv ...

Biopsychology - WordPress.com

... • Psychophysiology ~ also studies the neural bases of thought, memory, attention, perception ...

FIGURE LEGENDS FIGURE 46.1 Lateral viewof a human brain

... probability. Blue traces represent saccades toward the receptive field, and green traces represent saccades opposite the receptive field. Traces are further subdivided according to local fractional income (reward probability during the past few trials): solid thick lines, 0.75–1.0; solid medium line ...

Powerpoint

... – Na+ permeability suddenly increases, resulting in an inward rush (action potential) ...

T/F

... True or False? T/F The human brain is larger than that of any other animal. T/F A single cell can stretch all the way from your spine to your toe. T/F Messages travel in the brain by means of electricity. T/F A brain cell can send out hundreds of messages each second, and manage to catch some rest ...

Synaptogenesis

... potentials (vertical lines) of three cells are schematized here. B: Before eye opening, retinal ganglion cells generate rhythmic bursts of action potentials that are synchronized between neighboring cells. The synchrony is not perfect, as shown by the colored spikes at an expanded time scale. This i ...

THE NERVOUS SYSTEM CH 48 AND 49

... 1. Neuron structure and function • Cell body: contains organelles • Dendrites: short extensions off cell body that receive signals • Axon: Long extension off of the cell body that relays the stimulus • synaptic terminal: sends info from one cell to another thru neurotransmitters • synapse: space be ...

ILGA_overview_11-16-09

...  reciprocally connected with area F5 (Matelli et al., 1985;  mortor dominant neurons (40%) discharge equally well if the grasping movement is made either in the light, or in the dark. These cells are referred to as (Taira et al., 1990). – 50% of neurons fired almost exclusively during one type of ...

Modern neuroscience is based on ideas derived

... methods, and offered exciting new possibilities. No other technique has comparable power and flexibility to show at once the spectrum of inputs and outputs of small or large brain areas, a column, layer, or single neurons. Using tracers we learned, for example, that connections between any two struc ...

Developmental plasticity: Pruning

... Studies of GM maturation show a loss in cortical GM density over time, which temporally correlates with postmortem findings of increased synaptic pruning during adolescence and early adulthood. The primary cause for loss of GM density is unknown. It may be driven at least partially by the process of ...

Connectionism

... • NetTalk is not provided with any rules for how different letters are pronounced under different circumstances. (It has been argued that ''ghiti'' could be pronounced ''fish'' - ''gh'' from ''enough'' and ''ti'' from ''nation.'') • But once the system has evolved, it acts as though it knows the rul ...

Widzenie - Home - Faculty of Physics University of Warsaw

... on-center bipolar cell and also has a connection with a postsynaptic cone in the center of the bipolar cell's receptive field. In the dark, horizontal cells release an inhibitory transmitter that maintains postsynaptic cones in the receptive field center in a slightly hyperpolarized state. Illuminat ...

02 The Visual System

... Striate cortex: Orientation selectivity, direction selectivity, and binocularity C. Extrastriate cortical areas: Selective responsive to complex shapes; e.g., Faces Psychology 355 ...

31.1 Really Neurons

... to muscles and glands. Interneurons process the information from sensory neurons and send commands to other interneurons or motor neurons ...

Ear to Auditory Cortex

... different kinds analysis. ...

Intro Nervous System and Neurons

... Books says antagonistic, but they are more complimentary ...

Sonia Gasparini, PhD Degrees Assistant Professor of Cell Biology & Anatomy and

... Dendritic integration in the entorhinal cortex (EC) The enthorhinal cortex is a key relay structure for the flow of information between the hippocampus and the neocortex. Not only does it act as a primary interface, it also plays a critical role in the computation of multi-sensory and cognitive moda ...

Neurons and Circuits - UT Computer Science

... Nerve cells in the brain communicate via voltage spikes. This is a complicated process that was worth a Nobel prize for Hodgkin and Huxley who described the first generally useful model[2], but for the moment we will present it in caricature. Each axon connecting to another cell’s dendrite via a syn ...

neuron - Cloudfront.net

... 2. How many categories of neurons are there, and what are their jobs? ...

Anatomy, composition and physiology of neuron, dendrite, axon,and

... action potentials are all or none every action potentials have same amplitude and duration information in the signal is represented by frequency and duration ...

Ch 3 Review

... allowing sodium ions (Na+) to rush into the axon, beginning at the soma and moving toward the axon terminals, briefly creating a positive charge within the axon.  This is an all-or-nothing event – the impulse occurs completely, or not at all ...

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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)