. Design for a brain. Brain -- Physiology; Central nervous system -- Mathematical models; Neurophysiology. Figure 13/9/1 : Two possible terminal fields : A, when p has the value p' and B, when it has the value p". (Critical states shown as dots.). Figure 13/9/2 : When the parameter is constant at p', the representative point will follow the path from )3 to a ; when at p" the point follows the path from a to j8. will the field of the system's main variables alternate between A and B. If p alternates slowly in comparison with the move- ment of the representative point, the point will f
. Design for a brain. Brain -- Physiology; Central nervous system -- Mathematical models; Neurophysiology. Figure 13/9/1 : Two possible terminal fields : A, when p has the value p' and B, when it has the value p". (Critical states shown as dots.). Figure 13/9/2 : When the parameter is constant at p', the representative point will follow the path from )3 to a ; when at p" the point follows the path from a to j8. will the field of the system's main variables alternate between A and B. If p alternates slowly in comparison with the move- ment of the representative point, the point will follow the circuit of Figure 13/9/2, going from a to /? when p is changed from p' to p'\ and returning to a when p is returned to p'. Suppose now that small random disturbances are applied to 150. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original Ashby, William Ross. New York : Wiley
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Keywords: ., bookcentury1900, bookpublishernewyorkwiley, booksubjectneurophys
