Abstract
By reviewing most of the neurobiology of consciousness, this article highlights some major reasons why a successful emulation of the dynamics of human consciousness by artificial intelligence is unlikely. The analysis provided leads to conclude that human consciousness is epigenetically determined, experience, and context-dependent at the individual level. It is subject to changes in time that are essentially unpredictable. If cracking the code to human consciousness were possible, the result would most likely have to consist of a temporal pattern code simulating long-distance signal reverberation and de-correlation of all spatial signal contents from temporal signals. In the light of the massive evidence for complex interactions between implicit (non-conscious) and explicit (conscious) contents of representation, the code would have to be capable of making implicit (non-conscious) processes explicit. It would have to be capable of a progressively less and less arbitrary selection of temporal activity patterns in a continuously developing neural network structure identical to that of the human brain, from the synaptic level to that of higher cognitive functions. The code’s activation thresholds would depend on specific temporal signal coincidence probabilities, vary considerably with time and across individual experience data, and would therefore require dynamically adaptive computations capable of emulating the properties of individual human experience. No known machine or neural network learning approach has such potential.
Highlights
The analysis provided leads to conclude that human consciousness is epigenetically determined, experience, and context-dependent at the individual level
The astonishing plasticity of the human brain enables life-long learning at all functional levels, from the synapse to higher cognitive processes, is in itself determined by time and context, and is driven by experience dependent epigenetic and environmental factors in complex interactive ways
This article reviews previous attempts to “crack the code” to human consciousness in the light of what is known about the neurobiology of conscious behaviour
Summary
In the current context where research aimed at creating artificial intelligence ca-. B. The astonishing plasticity of the human brain enables life-long learning at all functional levels, from the synapse to higher cognitive processes, is in itself determined by time and context, and is driven by experience dependent epigenetic and environmental factors in complex interactive ways. This article reviews previous attempts to “crack the code” to human consciousness in the light of what is known about the neurobiology of conscious behaviour. The conclusions from this analysis highlight why it is unlikely that any machine will ever be able to successfully emulate the dynamics of human consciousness in all their complexity
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