The human cortex has on the order of 10 billion neurons. Only about 0.1% of this 10 billion are connected to either sensory or to motor cells (Spitzer p. xx). The overwhelming bulk of cortical neurons communicate only with other cortical neurons and there are built-in paths for transferring sensory data, first to assemble it then to merge it with other senses, eventually to the prefrontal lobe, and finally outward to
Heisenberg revealed the Uncertainty Principle. Here we see Neural Indeterminacy. I’ve skipped all the pattern handling, simplifying the discussion to a single input neuron. This is reasonable since the output of one pattern travels to the next, inner pattern accumulator as a single neuron.
A typical cortical neuron has ten thousand inputs, seventy percent are excitatory and thirty percent are inhibitory. If the sum of the voltages is greater than or equal to the threshold of the neuron, the neuron fires completely. That firing is called all-or-none. If the threshold is exceeded by a lot, it still fires the same. If a different combination of inputs meets or exceeds the threshold, the neuron fires exactly the same as in the first case.
This is a base indeterminacy, at the neural level. Different inputs can result in the same output. I call this aspect of the neural threshold, the Almost Gate.
Back of Envelope Calculation
The human cortex has on the order of 10 billion neurons. Only about 0.1% of this 10 billion are connected to either sensory or to motor cells. The overwhelming bulk of cortical neurons communicate only with other cortical neurons. A general, functional flow is from
- sensory input
- development of features (it takes at least seven steps for vision)
- association with information from other senses
- delivery of abstracted categories to the pre-frontal lobes for executive action
- shuttling of categories in and out of working storage
- decision on action plan
- delivery of action down to the motor centers
Purely considering the numbers (10 billion total/50 million input = 200), an estimate of 50 steps from input to action is an extremely conservative guess of the number of steps from sensation to action. This accord well with the 100 step rule that has been used as a guideline based on 1/2 second of lag from presentation of sensory stimulus … etc.
Each of those transmission steps have a loss of specificity at each threshold. Let’s consider the probability cascade with two different cases of fidelity due to the Almost Gate. First, let’s consider an almost exact match (99% of all inputs are the same) is required to trigger the neuron. In the second case, we relax the threshold match to 95%.
Image. chart of neuron resting charge, threshold value, various inputs
Same Person, Difference Times
- 99%. After 50 steps, two different input streams, each which triggered the first receiving neuron, have a 60% chance of resulting in the same action
- 95%. After 50 steps, two different input streams, each which triggered the first receiving neuron, have a 8% chance of resulting in the same action
Different Persons, Same Time
- Alternatively, after 50 steps, two people with the same input, will have a match at the output 60% of the time.
- Alternatively, after 50 steps, two people with the same input, will only have a match 8% of the time.
We humans start with the same basic genetic and physical structure. The lines of our development are similar, but the parameters of genetic inheritance and the accidents of unique experience explain the rise of dissimilar views of the same reality. Link to “Alien Sofa”