In the strong-noise chaotic regime, relative clock phases become statistically independent of initial conditions after a defined timescale, allowing one agent to estimate an effective phase matching the other's.
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Introduces Fisher information velocity on a PSD Riemannian manifold to decouple energy surges from spectral warps, achieving 74% higher significance than BLRMS and expanding anomaly detection by 87% on LIGO O4a data while remaining insensitive to astrophysical signals.
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Effective synchronization amid noise-induced chaos
In the strong-noise chaotic regime, relative clock phases become statistically independent of initial conditions after a defined timescale, allowing one agent to estimate an effective phase matching the other's.
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Fisher Information Velocity: A New Geometric Channel for Precision Glitch Identification in Gravitational-Wave Detectors
Introduces Fisher information velocity on a PSD Riemannian manifold to decouple energy surges from spectral warps, achieving 74% higher significance than BLRMS and expanding anomaly detection by 87% on LIGO O4a data while remaining insensitive to astrophysical signals.