O.I. Electrophysiology
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Three major issues with O.I...
- Lifespan: while non-dviding cells are potentially immortal, current lifespan only about 100 days.
- Size: they are too small, only about a grain of salt. The bigger the organoid the more intelligence.
- Communication: the input, output system and effective training and communication.
Electrophysiology in O.I. is the study of neuron electrical system for the result that communication methods can be formed. The two known communication systems in the human body, chemical and electrical. While humans have five senses, the basic sense of a neuron is the electrical gradient (its associated field) and about 100 chemicals such as dopamine called neurotransmitters. The language changes the mode of the cell, initiates functions from its DNA manifold.
Each time we communicate with a neuron we are forming a sense for the neuron. The human bodies 5 senses are multi-modal, general, contrast, a specialized sense such as flying a plane, solving puzzles or playing a video game.
Work on electrophysiology is essential, some of the most basic animals sense their surroundings by electrical discharge on contact, maintaining a basic voltage with any discharge meaning another object has touched or is near, another is seeing with magnetism.
The most resonating example is fight or flight, a stimulus is detected, goes to brain for processing and outputs to put the system into a fight or flight mode. Upon success, stimulus occurs and again into the brain and releases dopamine.
The most commun circuit is homeostatis, impetus, hunger increases, a challenge is associated with resolving the impetus, eat, eating resolves the hunger condition and also sends stimulus to the brain of success.
Neurons maintain an electrical difference, commmunication with a neuron is a spike in the electrical gradient, polarization of the cell and that causes a neurotramitter to be released where onwards if causes some response. Action potentials, resting membrane potential, depolarization, repolarization, refractory period...
The operator stimulates the neuron gradient, action potentials to cause the release of neurotransmitters relative to an aim.
action potential → neurotransmitter → a serotonergic neuron will release serotonin, while a dopaminergic neuron will release dopamine. The action potential provides the "go" signal. The different specializations of neurons communicate an outcome. For instance, if a dopamine neuron is triggered, it means success, while if a serotonin neuron is fired it means fail.
- Reward: Dopamine
- Punishment: Serotonin, perhaps Norepinephrine.