Multifractal characterization of nonstationarity and intermittency of cloud base height signals

Nadia S. Gospodinova; K. Ivanova; Eugene E. Clothiaux; Thomas P. Ackerman

doi:10.1117/12.425187

9 April 2001 Multifractal characterization of nonstationarity and intermittency of cloud base height signals

Nadia S. Gospodinova, K. Ivanova, Eugene E. Clothiaux, Thomas P. Ackerman

Proceedings Volume 4397, 11th International School on Quantum Electronics: Laser Physics and Applications; (2001) https://doi.org/10.1117/12.425187
Event: 11th International School on Quantum Electronics: Laser Physics and Applications, 2000, Varna, Bulgaria

Abstract

Cloud base profiles measured with laser ceilometer are studied using multifractal approach. The method assesses nonstationarity and intermittency pertinent to such highly fluctuating signals. The irregular structure of the signals is a benchmark for non-linear dynamics processes. The analysis searches for the scaling properties of q-th order singular measures and q-th order structure functions. Therefore, the method seeks for various scales of self-affinity, i.e. searches for multi-affinity. We found that multifractality is the signature of the cloud base height profiles, characterized with a hierarchy of exponents q H(q) and K(q). The value of the roughness parameter H₁ is consistent with the one obtained for the same data using different method of analysis. The multifractal behavior is consistent also with the multi- affine properties of other atmospheric data recorded simultaneously during the same field experiment ASTEX'92.

Citation Download Citation

Nadia S. Gospodinova, K. Ivanova, Eugene E. Clothiaux, and Thomas P. Ackerman "Multifractal characterization of nonstationarity and intermittency of cloud base height signals", Proc. SPIE 4397, 11th International School on Quantum Electronics: Laser Physics and Applications, (9 April 2001); https://doi.org/10.1117/12.425187

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