Publications 2018

‚ÄčLagrangian tracking in stochastic fields with an application of an ensemble of velocity fields in the Red Sea
S. El-Mohtar, I. Hoteit, O. Knio, L. Issa, and I. Lakkis
Ocean Modelling, 131, 1-14, 2018
S. El-Mohtar, I. Hoteit, O. Knio, L. Issa, and I. Lakkis
Stochastic flow fields, Red sea, Lagrangian tracking
‚ÄčLagrangian tracking of passive tracers in a stochastic velocity field within a sequential ensemble data assimilation framework is challenging due to the exponential growth in the number of particles. This growth arises from describing the behavior of velocity over time as a set of possible combinations of the different realizations, before and after each assimilation cycle. This paper addresses the problem of efficiently advecting particles in stochastic flow fields, whose statistics are prescribed by an underlying ensemble, in a parallel computational framework (openMP). To this end, an efficient algorithm for forward and backward tracking of passive particles in stochastic flow-fields is presented. The algorithm, which employs higher order particle advection schemes, presents a mechanism for controlling the growth in the number of particles. The mechanism uses an adaptive binning procedure, while conserving the zeroth, first and second moments of probability (total probability, mean position, and variance). The adaptive binning process offers a tradeoff between speed and accuracy by limiting the number of particles to a desired maximum. To validate our method, we conducted various forward and backward particles tracking experiments within a realistic high-resolution ensemble assimilation setting of the Red Sea, focusing on the effect of the maximum number of particles, the time step, the variance of the ensemble, the travel time, the source location, and history of transport.

DOI: 10.1016/j.ocemod.2018.08.008