Make a run over a school of fish and then review recorded data using WASSP Navigator to determine the best place to set your net, or adjust it to avoid a costly snag. WASSP data is displayed in real-time enabling you to make on-the-spot decisions. The WASSP R&D facilities in Auckland, New Zealand are state-of-the-art, and the R&D team remains dedicated to the innovation and improvement of WASSP products to ensure we always stay at the leading edge of our industry. WASSP R&D TEAM - COMMITTED TO CONTINUOUS IMPROVEMENT
Hypack export multibeam to xyz pro#
WASSP can integrate with navigational suites such as MaxSea TimeZero Pro and OLEX as well as hydrographic software suites such as HYPACK, BeamworX, EIVA, Echoview and QINSy. WASSP systems have been designed to seamlessly integrate with leading software suites (depending on the WASSP system you are working with). INTERFACE VERSATILITY WITH LEADING SOFTWARE MANUFACTURERS WASSP multibeam sounders accurately profile the water column and seafloor - highlighting reefs, wrecks, fish schools, seafloor hardness changes and foreign objects in the water column or on the seafloor. It offers unparalleled accuracy, resolution and versatility in a cost-effective package suitable for vessels of every size. WASSP Multibeam Sounder technology gives you the power to really see what’s beneath your boat. WASSP enables seabed profiling at up to 100 times the speed of conventional single-beam sounders, with improved accuracy and significantly reduced cost. * See ChangeLog for information on the currently implemented releases of NADCON and VERTCON."WASSP LETS ME GO TO WHERE I WOULD NEVER HAVE FISHED BEFORE, GIVING ME A HIGHER VALUE CATCH, WITH REDUCED FUEL CONSUMPTION" – Dominique Faou, owner/skipper, france Orthometric Height Height Transformations (VERTCON).
NCAT incorporates the capabilities of the following NGS computer programs, which originally were stand-alone products: Only orthometric-to-orthometric and ellipsoidal-to-ellipsoidal height transformations are currently possible in NCAT. Please note that, although either orthometric or ellipsoidal heights can be used as inputs to NCAT, at this time NCAT does not convert between orthometric and ellipsoidal heights. NADCON and VERTCON provide local error estimates for each transformation, and do not support transformations which are outside the boundaries of the supported areas (generally, CONUS, Alaska, Hawaii, Puerto Rico and the US Virgin Islands, American Samoa, and Guam and Northern Mariana Islands).
Transformations are provided for a wide range of frames/datums and regions in the National Spatial Reference System. NCAT currently uses NADCON* to perform three-dimensional (latitude, longitude, ellipsoid height) coordinate transformations and VERTCON* to perform orthometric height transformations. For coordinate conversion, NCAT allows conversion between lat/long/height, SPC, UTM, XYZ, and USNG systems. NGS Coordinate Conversion and Transformation Tool (NCAT) allows users to easily convert between different coordinate systems and/or transform between different reference frames and/or datums, in a single step.