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The non-Foster circuit data analyzed here contains three coupled circuits with internal feedback loops.
Figure 12 Trajectory prediction and error estimation of non-Foster circuit TE curve.
The bottom panel of each snapshot shows the non-Foster circuit signals.
where L is the size of E. Figure 12 shows the probabilistic light cone analysis on the non-Foster circuit data.
We choose natural logarithmic curves to model the growth rate of the TE trajectory as information transfer approaches its maximum prior to a critical transition as observed in the non-Foster circuit example in the previous section.
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Bottom: non-Foster circuits in voltage.
Top: Signals from non-Foster circuits in voltage.
The first critical transition scenario is from a stable state to oscillations in a network of non-Foster circuits.
We see that this logarithmic function is able to approximate the TE curve of the non-Foster circuits data very well.
Two (indicated in magenta diamonds) of the 36 points of the actual trajectory are outside the 95% confidence interval, just before the non-Foster circuits are fully synchronized around time t = 1500.
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