Andrew Poje


  1. Submesoscale dispersion in the vicinity of the Deepwater Horizon spill, AC Poje, Özgokmen TM, Lipphardt BL, et al.. Proceedings of the National Academy of Science , 111 pp. 12693-12698, (2014) (abstract)
  2. Minimum time heading control of underpowered vehicles in time-varying ocean currents, B Rhoads, Mezić I, Poje AC, Ocean Engineering , p12-31, (2013). 10.1016/j.oceaneng.2013.03.012 (abstract)
  3. On multi-scale dispersion under the influence of surface mixed layer instabilities and deep flows, TM Ozgokmen, Poje AC, Fischer P, et al., Ocean Modelling , 56, p16-30, (2012). (abstract)
  4. Large eddy simulations of mixed layer instabilities and sampling strategies, TM Ozgokmen, Poje AC, Fischer P, Haza AC, Ocean Modelling , 39, p311-331, (2011). (abstract)
  5. Resolution dependent relative dispersion statistics in a hierarchy of ocean models, Poje AC, Haza AC, Ozgokmen TM, Ocean Modelling , 31, 1-2, p36-50, (2010). (abstract)
  6. Minimum time feedback control of autonomous underwater vehicles, Rhoads B, Mezić I, Poje AC, Decision and Control (CDC), 2010 49th IEEE Conference on, pp.5828-5834, (2010) (abstract)
  7. Persistent patterns and multifractality in fluid mixing, Sundaram B, Poje AC, Pattanayak AK, Physical Review E , 79, 6, (2009). (abstract)
  8. Averaged dynamics of time-periodic advection diffusion equations in the limit of small diffusivity, Schafer T, Poje AC, Vukadinovic J, Physica D, 238, 3, p233-240, (2009). (abstract)
  9. Death of three Loop Current rings, Lipphardt BL, Poje AC, Kirwan AD, et al. Journal of Marine Res., 66, 1, p25-60, (2008). (abstract)
  10. Relative dispersion from a high-resolution coastal model of the Adriatic Sea , A.C. Haza, A.C. Poje , P. Martin, T.M. Ozgokmen, Ocean Modelling, 22 , p48-65, (2008). (abstract)
  11. Model-based directed drifter launches in the Adriatic Sea: Results from the DART experiment , A.C. Haza, A. Griffa, P. Martin, A. Molcard, T.M. Ozgokmen, A.C. Poje, R. Barbanti, J.W. Book, P.M. Poulain, M. Rixsen, P. Zanasca, Geophysical Research Letters, 34 , L10605, (2007). (abstract)
  12. 25 Years of Nonlinearity in Oceanography from the Lagrangian Perspective , A.D. Kirwan Jr, B.L. Lipphardt Jr, A.C. Poje , L. Kantha and M. Zweng , in Nonlinear Dynamics in Geosciences, Springer, (2007). (abstract)

  13. Acoustical dead zones and the spatial aggregation of whale strandings , B. Sundaram, A.C. Poje, R.R. Veit and H. Nganguia, Journal of Theoretical Biology, 238 , p764-770, (2006). (abstract)

  14. Directed drifter launch strategies for Lagrangian data assimilation using hyperbolic trajectories , A. Molcard, A. C. Poje and T. M. Ozgokmen, Ocean Modelling, 12, p237-267, (2006). (abstract)

  15. Predictability , Hacker J, Hansen J, Berner J, Chen YQ, Eshel G, Hakim G, Lazarus S, Majumdar S, Morss R, Poje A, Sheremet V, Tang YM, Webb C, Bulletin of the American Meteorological Society , 86, p1733-1737, (2005). (abstract)

  16. Lagrangian velocity statistics of directed launch strategies in a Gulf of Mexico model. , M. Toner, A. C. Poje Nonlinear Processes in Geophysics, 11, p35-46 (2004). (abstract)

  17. Chlorophyll dispersal by eddy-eddy interactions in the Gulf of Mexico ,M. Toner, A. D. Kirwan, A. C. Poje, L. H. Kantha, F. E. Muller-Karger, L. Kantha, C. K. R. T. Jones Journal of Geophysical Research, 108, N0. C4, p3105 (2003). (abstract)

  18. Accuracy and nonoscillatory properties of enslaved difference schemes ,D. A. Jones, L. G. Margolin, A. C. Poje Journal of Computational Physics, 181,705-728 (2002). (abstract)

  19. Drifter launch strategies based on Lagrangian templates. , A.C. Poje, M. Toner, A.D. Kirwan and C.K.R.T. Jones, Journal of Physical Oceanography, 32, 1855-1869, (2002). (abstract)

  20. Reconstructing basin scale Eulerian velocity fields from simulated drifter data. , M. Toner, A. D. Kirwan, B. L. Lipphardt, A. C. Poje, C.K.R.T. Jones,C. E Grosh, Journal of Physical Oceanography, 31, 1361-1376, (2001). (abstract)

  21. Lagrangian covariance analysis of homogeneous \beta-plane turbulence. ,J. R. Ristorcelli, A. C. Poje, Theoretical and Computational Fluid Dynamics, 14, 1-20, (2000). (abstract)

  22. The geometry and statistics of mixing in aperiodic flows. A. C. Poje, G. Haller, I. Mezic. Phys. Fluids 11, 2963-2968, (1999). (abstract)

  23. Universal properties of chaotic transport in the presence of diffusion. ,V. Rom-Kedar, A. C. Poje Phys. Fluids 11, 2044-2057, (1999). (abstract)

  24. Geometry of cross-stream Lagrangian mixing in a double gyre ocean model. A. C. Poje, G. Haller, J. Phys. Ocean. 29, 1649-1665, (1999). (abstract)

  25. Finite time transport in aperiodic flows. G. Haller, A. C. Poje, Phys D, 119, 352-380, (1998). (abstract)

  26. Resolution effects and enslaved finite difference schemes for a double gyre, shallow water model,D. A. Jones, A. C. Poje, L.G. Margolin, Theoretical and Computational Fluid Dynamics , 9, pp 269-280 (1997). (abstract)

  27. Low-dimensional models for flows with density fluctuations. J.L. Lumley, A. C. Poje, Phys. Fluids, 9(7), pp 2023-2031 (1997). (abstract)

  28. Eddy growth and mixing in mesoscale oceanographic flows. G. Haller, A. C. Poje, Nonlinear Proc. in Geophysics, 4, 223-235, (1997). (abstract)

  29. Enslaved finite difference approximations for quasi-geostrophic, shallow flows, with D.A. Jones and L.G. Margolin, Phys D , 98, pp 559-573 (1996). (abstract)

  30. Enslaved finite difference schemes for nonlinear dissipative PDEs , Numerical Methods for Partial Differential Equations, D. A. Jones, A. C. Poje, L. G. Margolin, 12, pp 13-40 (1996). (abstract) br>

  31. A model for large-scale structures in turbulent shear flows, A. C. Poje, J. L. Lumley, J. Fluid Mech., 285, pp 349-369 (1995). (abstract)

  32. The Proper Orthogonal Decomposition, wavelets and modal approaches to the dynamics of coherent structures,G. Berkooz, J. Elezgaray, P.J. Holmes and J.L. Lumley, A. C. Poje, Applied Sci. Res. 53, pp 321-338, (1994). (abstract)