USML
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![]() | This package provides the extensions needed to integrate NetCDF files with Boost's uBLAS numeric library |
![]() ![]() | Regression tests for the netcdf package |
![]() | This package defines the interface between WaveQ3D and the models used to describe the synthetic natural environment |
![]() ![]() | A "profile model" computes the environmental parameters of ocean water |
![]() ![]() | A "boundary model" computes the environmental parameters of the ocean's surface or bottom |
![]() ![]() | Combines the effects of surface, bottom, and profile into a single model |
![]() ![]() | Regression tests for the ocean package |
![]() | This package defines the basic data types specific to USML |
![]() ![]() | Locations and directions are defined in a spherical earth coordinate system relative to the WGS84 center of curvature for the local area of operations |
![]() ![]() | These components define support for N-dimensional data sets and their associated axes |
![]() ![]() | Regression tests for the types package |
![]() | This package provides the extensions needed to transform Boost's uBLAS library into a Matlab-like library of mathematical routines for scientific applications |
![]() ![]() | Adds support for complex numbers and elementary functions (trigonometric, exponential, logrithmic, hyperbolic, etc.) to uBLAS's existing set of mathematical algorithms |
![]() ![]() | This set of components integrates the Boost Random Number Library with uBLAS vectors and matricies |
![]() ![]() | Regression tests for the ublas package |
![]() | The WaveQ3D model computes propagation loss using hybrid Gaussian beams in spherical/time coordinates |
![]() ![]() | Regression tests for the waveq3d package |