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EVIDENCE FOR THE CELL ASSEMBLY

The idea of the cell assembly is grounded on the following 3 principles:

  1. The neurophysiological basis of a concept is the cell assembly, ie population coding.

  2. The neurons in a cell assembly continuously fire even after environmental stimulus ceases.

  3. Learning gives rise to cell assemblies through the interaction between presynaptic and postsynaptic synapses.

NOTE I will briefly talk about the first two principles; however, there is evidence for all 3.

Evidence for PrincipleEVIDENCE FOR PRINCIPLE 1

In The Organization of Behavior Hebb observed that brain surgery did not affect intelligence. Given this he proposed that the cell assembly was the neurophysiology basis for a concept.

The studies that support this principle show this; different neurons get activated in response to the same feature, but, unless the neurons function collectively, an object is not identified.

(Averbeck 2006) reports that individual neurons count for little; as an example, he mentions the visual cortex. He says:

visual discrimination in the primary visual cortex (V1) is much more accurate than would be predicted from the responses of single neurons.

PrincipleEVIDENCE FOR PRINCIPLE 2

Principle 2 could explain why a stimulus triggers a memory. Consider this example from Seung, Connectome:

It's a fine spring morning, and you are walking down the street on the way to work. You catch the scent of flowers; within a few steps the smell becomes overpowering. You're not yet conscious of the magnolia blooming at the side of the road, but all of the sudden you're transported far away. You remember standing next to a magnolia tree, outside the red brick house of your first sweetheart. He is holding you in his arms. You feel shy and embarrassed. A plane is flying overhead, and you hear his mother calling for you to come have a glass of lemonade.

He then goes on to explain why this might happen:

How do these connections trigger the recollection of your first kiss? Since the neurons are assumed excitatory, the activation of the "magnolia neuron" excites the other neurons in the cell assembly to become active.

Since neurons in a cell assembly continuously fire even after the stimulus ceases you remain thinking about your first kiss.

Evidence for principle 2

Principle 2 is supported by the following studies:

(Funahashi 2001) (Assad 2000)

This post is not great, but I hope it helps someone.

Thanks.

EVIDENCE FOR THE CELL ASSEMBLY

The idea of the cell assembly is grounded on the following 3 principles:

  1. The neurophysiological basis of a concept is the cell assembly, ie population coding.

  2. The neurons in a cell assembly continuously fire even after environmental stimulus ceases.

  3. Learning gives rise to cell assemblies through the interaction between presynaptic and postsynaptic synapses.

NOTE I will briefly talk about the first two principles; however, there is evidence for all 3.

Evidence for Principle 1

In The Organization of Behavior Hebb observed that brain surgery did not affect intelligence. Given this he proposed that the cell assembly was the neurophysiology basis for a concept.

The studies that support this principle show this; different neurons get activated in response to the same feature, but, unless the neurons function collectively, an object is not identified.

(Averbeck 2006) reports that individual neurons count for little; as an example, he mentions the visual cortex. He says:

visual discrimination in the primary visual cortex (V1) is much more accurate than would be predicted from the responses of single neurons.

Principle 2

Principle 2 could explain why a stimulus triggers a memory. Consider this example from Seung, Connectome:

It's a fine spring morning, and you are walking down the street on the way to work. You catch the scent of flowers; within a few steps the smell becomes overpowering. You're not yet conscious of the magnolia blooming at the side of the road, but all of the sudden you're transported far away. You remember standing next to a magnolia tree, outside the red brick house of your first sweetheart. He is holding you in his arms. You feel shy and embarrassed. A plane is flying overhead, and you hear his mother calling for you to come have a glass of lemonade.

He then goes on to explain why this might happen:

How do these connections trigger the recollection of your first kiss? Since the neurons are assumed excitatory, the activation of the "magnolia neuron" excites the other neurons in the cell assembly to become active.

Since neurons in a cell assembly continuously fire even after the stimulus ceases you remain thinking about your first kiss.

Evidence for principle 2

Principle 2 is supported by the following studies:

(Funahashi 2001) (Assad 2000)

This post is not great, but I hope it helps someone.

Thanks.

EVIDENCE FOR THE CELL ASSEMBLY

The idea of the cell assembly is grounded on the following 3 principles:

  1. The neurophysiological basis of a concept is the cell assembly, ie population coding.

  2. The neurons in a cell assembly continuously fire even after environmental stimulus ceases.

  3. Learning gives rise to cell assemblies through the interaction between presynaptic and postsynaptic synapses.

NOTE I will briefly talk about the first two principles; however, there is evidence for all 3.

EVIDENCE FOR PRINCIPLE 1

In The Organization of Behavior Hebb observed that brain surgery did not affect intelligence. Given this he proposed that the cell assembly was the neurophysiology basis for a concept.

The studies that support this principle show this; different neurons get activated in response to the same feature, but, unless the neurons function collectively, an object is not identified.

(Averbeck 2006) reports that individual neurons count for little; as an example, he mentions the visual cortex. He says:

visual discrimination in the primary visual cortex (V1) is much more accurate than would be predicted from the responses of single neurons.

EVIDENCE FOR PRINCIPLE 2

Principle 2 could explain why a stimulus triggers a memory. Consider this example from Seung, Connectome:

It's a fine spring morning, and you are walking down the street on the way to work. You catch the scent of flowers; within a few steps the smell becomes overpowering. You're not yet conscious of the magnolia blooming at the side of the road, but all of the sudden you're transported far away. You remember standing next to a magnolia tree, outside the red brick house of your first sweetheart. He is holding you in his arms. You feel shy and embarrassed. A plane is flying overhead, and you hear his mother calling for you to come have a glass of lemonade.

He then goes on to explain why this might happen:

How do these connections trigger the recollection of your first kiss? Since the neurons are assumed excitatory, the activation of the "magnolia neuron" excites the other neurons in the cell assembly to become active.

Since neurons in a cell assembly continuously fire even after the stimulus ceases you remain thinking about your first kiss.

Principle 2 is supported by the following studies:

(Funahashi 2001) (Assad 2000)

This post is not great, but I hope it helps someone.

Thanks.

Source Link
user19721
user19721

EVIDENCE FOR THE CELL ASSEMBLY

The idea of the cell assembly is grounded on the following 3 principles:

  1. The neurophysiological basis of a concept is the cell assembly, ie population coding.

  2. The neurons in a cell assembly continuously fire even after environmental stimulus ceases.

  3. Learning gives rise to cell assemblies through the interaction between presynaptic and postsynaptic synapses.

NOTE I will briefly talk about the first two principles; however, there is evidence for all 3.

Evidence for Principle 1

In The Organization of Behavior Hebb observed that brain surgery did not affect intelligence. Given this he proposed that the cell assembly was the neurophysiology basis for a concept.

The studies that support this principle show this; different neurons get activated in response to the same feature, but, unless the neurons function collectively, an object is not identified.

(Averbeck 2006) reports that individual neurons count for little; as an example, he mentions the visual cortex. He says:

visual discrimination in the primary visual cortex (V1) is much more accurate than would be predicted from the responses of single neurons.

Principle 2

Principle 2 could explain why a stimulus triggers a memory. Consider this example from Seung, Connectome:

It's a fine spring morning, and you are walking down the street on the way to work. You catch the scent of flowers; within a few steps the smell becomes overpowering. You're not yet conscious of the magnolia blooming at the side of the road, but all of the sudden you're transported far away. You remember standing next to a magnolia tree, outside the red brick house of your first sweetheart. He is holding you in his arms. You feel shy and embarrassed. A plane is flying overhead, and you hear his mother calling for you to come have a glass of lemonade.

He then goes on to explain why this might happen:

How do these connections trigger the recollection of your first kiss? Since the neurons are assumed excitatory, the activation of the "magnolia neuron" excites the other neurons in the cell assembly to become active.

Since neurons in a cell assembly continuously fire even after the stimulus ceases you remain thinking about your first kiss.

Evidence for principle 2

Principle 2 is supported by the following studies:

(Funahashi 2001) (Assad 2000)

This post is not great, but I hope it helps someone.

Thanks.