Short-term Earthquake Prediction Based on Seismic Precursory Electric Signals Recorded on Ground Surface.
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“What today seems impossible, is tomorrow’s reality”
Dinos
STRANGE ATTRACTOR ADVANCED MODEL (2023)
In Section 9.2.3 (2021) we used discrete physical-mathematical models to simulate hyperbolas and circles observed in real data. The elliptical type of strange attractor just failed to comply with the preliminary adopted models. However we got experienced in the deeper insights of the physics of the strange attractor and the use of the Levenberg - Marquardt algorithm.
Therefore, we started again from scratch. The newly adopted model by modifying its parameters is capable to generate.
- Hyperbolas in random directions when only electrical noise is present.
- Ellipse of various types when electrical noise and moderate EQ signal are present.
- Almost circles when electrical noise and high level EQ signal are present.
Examples of all the above cases follow:
- HYPERBOLAS
Fig. 1. Hyperbolas generated by the application of the "strange attractor advanced model" method on uncorrelated noise electrical signals.
Fig. 2. Hyperbolas generated by the application of the "strange attractor advanced model" method on uncorrelated noise electrical signals.
- ELLIPSES
Fig. 3. Ellipse generated by the application of the "strange attractor advanced model" method on both monochromatic EQ electric precursory signal and noise.
Fig. 4. Ellipse generated by the application of the "strange attractor advanced model" method on both monochromatic EQ electric precursory signal and noise.
Fig. 5. Ellipse generated by the application of the "strange attractor advanced model" method on both monochromatic EQ electric precursory signal and noise.
Fig. 6. Ellipse generated by the application of the "strange attractor advanced model" method on both monochromatic EQ electric precursory signal and noise.
- ALMOST CIRCLES
Fig. 7. Circle generated by the application of the "strange attractor advanced model" method on both high level EQ electric precursory signal and noise.
Fig. 8. Circle generated by the application of the "strange attractor advanced model" method on both high level EQ electric precursory signal and noise.
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