[DoYouKnow]

Let t_vector denote a vector representing the flow of time. S_1(1) is a hippocampal state of higher entropy in the future, S_0(-1) is a state of lower entropy in the past in the physical universe. {1,-1} are a member of the larger set of events. We use the internal consistancy theorem on S_1 and S_0. From this, we know that the representations internally and externally are consistant. Let S_2 denote t_vector isomorphic to integral S_0-S_1 dt. Let L={d_1,d_2,etc} denote the set of lengths of dendrites extending from the neuron, and let this evolve over time. dL/dt = dL/t_vector*t_vector/dt. The calculation for the actual consciousness state arises out of this potential energy given as a function of power spectrum.

[mkirkpatrick]

Quote:

Originally Posted by DoYouKnow Let t_vector denote a vector representing the flow of time. S_1(1) is a hippocampal state of higher entropy in the future, S_0(-1) is a state of lower entropy in the past in the physical universe. {1,-1} are a member of the larger set of events. We use the internal consistancy theorem on S_1 and S_0. From this, we know that the representations internally and externally are consistant. Let S_2 denote t_vector isomorphic to integral S_0-S_1 dt. Let L={d_1,d_2,etc} denote the set of lengths of dendrites extending from the neuron, and let this evolve over time. dL/dt = dL/t_vector*t_vector/dt. The calculation for the actual consciousness state arises out of this potential energy given as a function of power spectrum.

Most interesting indeed doyouknow,tell me,what would you consider consciousness to
be then;a wave,or a pulse,or something completely different?



regards michael.

[DoYouKnow]

I'm not addressing consciousness, instead some properties of its state including binding. For example, the ability of distant regions of the brain to connect with themselves. There was a study in the late 80s that talked about how the hippocampus stores memories of areas of the cortex that should be activated when those memories are recalled. I'm addressing parts of this issue.

[DoYouKnow]

t_vector is a variable.

Also, I may have the chain rule incorrect for an implicit variable t_vector. I'll have to check on that