The Hyperbolic Nonlinear Schrodinger equation (HypNLS) arises as a model for
the dynamics of three-dimensional narrowband deep water gravity waves. In this
study, the Petviashvili method is exploited to numerically compute bi-periodic
time-harmonic solutions of the HypNLS equation. In physical space they
represent non-localized standing waves. Non-trivial spatial patterns are
revealed and an attempt is made to describe them using symbolic dynamics and
the language of substitutions. Finally, the dynamics of a slightly perturbed
standing wave is numerically investigated by means a highly acccurate Fourier
solver.Comment: 33 pages, 10 figures, 70 references. Other author's papers can be
found at http://www.denys-dutykh.com