BhauBandwidth and Liquidity
H/t to Liquidity Wizard at Tokemak for outlining how Liquidity is Bandwidth in Web3, and BanklessHQ for surfacing the alpha. In Web2, network bandwidth refers to the maximum rate of information/data transfer across a given a path – the bit rate (bit/s). In Web3, information is money, so bandwidth entails transactions per second with respect to the movement of Value. Therefore, bandwidth is additionally characterized by an economic component – Liquidity. Thin liquidity is akin to dial-up, whil...
BhauPsychiatry 3.0
Highlights:Psychiatry 3.0 has both therapeutic and diagnostic applicationsMaps onto pre-existing frameworksRobust evidence baseValue proposition is risk minimizedThe notion of a Psychiatry 3.0 was mentioned in an article about “Jolting brain circuits with electricity…”The metaphor is useful:Psychiatry 1.0: Psychodynamic Psychotherapy and Psychoanalysis, subsequently continuing and/or forking into related specialized schools of thoughts. E.g., Humanistic psychology, Gestalt psychology, Behavio...
BhauBrain Networks
Our Brains are powered by Networks.Take the tour below to learn more.Electricity…This GIF depicts the flow of electricity inside a brain at a Micro scale.…flows along neurons in the brain. There are 86 billion neurons inside this floating jelly, and they connect with each other along numerous junctions known as synapses.Our Brains…This GIF depicts the flow of electricity inside a brain at a Macro scale.…are highly sophisticated super-computers that dynamically respond to process information i...
Web3 | Decentralization | Trust | Psych3
BhauBandwidth and Liquidity
H/t to Liquidity Wizard at Tokemak for outlining how Liquidity is Bandwidth in Web3, and BanklessHQ for surfacing the alpha. In Web2, network bandwidth refers to the maximum rate of information/data transfer across a given a path – the bit rate (bit/s). In Web3, information is money, so bandwidth entails transactions per second with respect to the movement of Value. Therefore, bandwidth is additionally characterized by an economic component – Liquidity. Thin liquidity is akin to dial-up, whil...
BhauPsychiatry 3.0
Highlights:Psychiatry 3.0 has both therapeutic and diagnostic applicationsMaps onto pre-existing frameworksRobust evidence baseValue proposition is risk minimizedThe notion of a Psychiatry 3.0 was mentioned in an article about “Jolting brain circuits with electricity…”The metaphor is useful:Psychiatry 1.0: Psychodynamic Psychotherapy and Psychoanalysis, subsequently continuing and/or forking into related specialized schools of thoughts. E.g., Humanistic psychology, Gestalt psychology, Behavio...
BhauBrain Networks
Our Brains are powered by Networks.Take the tour below to learn more.Electricity…This GIF depicts the flow of electricity inside a brain at a Micro scale.…flows along neurons in the brain. There are 86 billion neurons inside this floating jelly, and they connect with each other along numerous junctions known as synapses.Our Brains…This GIF depicts the flow of electricity inside a brain at a Macro scale.…are highly sophisticated super-computers that dynamically respond to process information i...
Web3 | Decentralization | Trust | Psych3
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…is summarized by the phrase above. Also known as the Cell Assembly theory, this model was introduced by Donald Hebb in the book titled The Organization of Behavior. This fundamental principle,
is a simple and elegant framework to contextualize Associative Learning and understand Neuroplasticity - the brain’s capacity for Re-Organization.
…we can find the basic unit of our nervous system - the Neuron.
When neurons “fire,” they communicate with other connected neurons:
Information, in the form of electricity, is transmitted downstream along connected neurons. The scientific term for this kind of “firing electricity” is known as an Action Potential.
The place where a neuron connects with another neuron is called a Synapse:
At the Synapse, this electricity is converted into chemical energy, and information is passed along through molecules known as Neurotransmitters (triangles above).
When Neurotransmitters traverse the Synapse across the synaptic cleft, they bind to the Post-Synaptic Neuron:
Here, the chemical energy is converted back into electricity, causing the Post-Synaptic Neuron to fire.
And because each neuron branches off to connect with numerous other neurons…
…information is distributed throughout the brain in this manner…
…on the order of milliseconds.
Continuously.
Left: As the neurons fire, they wire together to strengthen the Synapse.
Right: As the neurons fall out of sync, the Synapse weakens and un-links.
As information is distributed along neurons connected within Neural Networks, it is stored in the form of Engrams.
The more the neurons fire, the more potently they wire to integrate the data being processed.
Synaptic strength of the Post-synaptic neuron (green) is much greater after Repeated Stimulation for 1 week. This is measured not only through the synaptic receptor density of the neuron, but also through recordings of a stronger neuronal impulse.
Repeated Stimulation mentioned above includes the kind of stimulation conducted through TMS:
The answer is Long Term Potentiation:
Long-Term Potentiaion (LTP) describes the long-lasting persistent strengthening of synapses brought about by repeated stimulation.
For reference, Long-Term Depression (LTD) is the opposite of this process. It entails the un-linking of neurons after falling out of sync.
…we can see how changes at the Micro level (Neurons) would influence pathways and connections at the Macro level (Connectome).
The Connectome - the neural connections in our brains - was mapped by the Human Connectome Project (similar to the mapping of our genes in the Human Genome Project):
These neural connections give rise to what are known as Structural and Functional Brain Networks. And as we’ve explored here, these networks can be reconfigured by leveraging Neuroplasticity.
…is summarized by the phrase above. Also known as the Cell Assembly theory, this model was introduced by Donald Hebb in the book titled The Organization of Behavior. This fundamental principle,
is a simple and elegant framework to contextualize Associative Learning and understand Neuroplasticity - the brain’s capacity for Re-Organization.
…we can find the basic unit of our nervous system - the Neuron.
When neurons “fire,” they communicate with other connected neurons:
Information, in the form of electricity, is transmitted downstream along connected neurons. The scientific term for this kind of “firing electricity” is known as an Action Potential.
The place where a neuron connects with another neuron is called a Synapse:
At the Synapse, this electricity is converted into chemical energy, and information is passed along through molecules known as Neurotransmitters (triangles above).
When Neurotransmitters traverse the Synapse across the synaptic cleft, they bind to the Post-Synaptic Neuron:
Here, the chemical energy is converted back into electricity, causing the Post-Synaptic Neuron to fire.
And because each neuron branches off to connect with numerous other neurons…
…information is distributed throughout the brain in this manner…
…on the order of milliseconds.
Continuously.
Left: As the neurons fire, they wire together to strengthen the Synapse.
Right: As the neurons fall out of sync, the Synapse weakens and un-links.
As information is distributed along neurons connected within Neural Networks, it is stored in the form of Engrams.
The more the neurons fire, the more potently they wire to integrate the data being processed.
Synaptic strength of the Post-synaptic neuron (green) is much greater after Repeated Stimulation for 1 week. This is measured not only through the synaptic receptor density of the neuron, but also through recordings of a stronger neuronal impulse.
Repeated Stimulation mentioned above includes the kind of stimulation conducted through TMS:
The answer is Long Term Potentiation:
Long-Term Potentiaion (LTP) describes the long-lasting persistent strengthening of synapses brought about by repeated stimulation.
For reference, Long-Term Depression (LTD) is the opposite of this process. It entails the un-linking of neurons after falling out of sync.
…we can see how changes at the Micro level (Neurons) would influence pathways and connections at the Macro level (Connectome).
The Connectome - the neural connections in our brains - was mapped by the Human Connectome Project (similar to the mapping of our genes in the Human Genome Project):
These neural connections give rise to what are known as Structural and Functional Brain Networks. And as we’ve explored here, these networks can be reconfigured by leveraging Neuroplasticity.
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