Hydrographic

HYPACK® FOR HYDROGRAPHIC SURVEYING

HYPACK® is the most widely used hydrographic software package in the world. It provides all of the tools necessary to complete your hydrographic, side scan sub bottom and magnetometer survey requirements. With over 10,000 users around the world, HYPACK® provides you with the tools necessary to meet almost any hydrographic survey requirement. It provides tools to design your survey, collect your data, apply corrections to soundings, remove outliers, plot field sheets, export data to CAD, compute volume quantities, generate contours, create side scan mosaics and create/modify electronic charts.

MONITOR SHIPPING CHANNEL CONDITIONS


HYPACK® is commonly used to maintain shipping and boating lanes //at specified depths// to assure safe passage of marine vessels. It provides hydrographic surveyors with all of the tools needed to design their survey, collect and process the data, and present it in a variety of output formats. Project plotting sheets, CAD chart files, cross sections and volumes reports, and interactive, 3-dimensional TIN models and point clouds all enable you to visualize the bottom surface in detail. Depth profiles can be compared to the engineered channel design specifications, assuring adequate depths and continued coverage of such structures as pipelines and communications cables.


UNDERWATER SEARCH


HYPACK® includes a diverse range of tools that may be used to search for submerged objects. Survey draws data from bathymetric and side scan sonar in color-coded displays that provide real-time visualization of the underwater surface.
 
HYPACK was honored to assist in a team of international scientists to survey the coast of Normandy, France to comemmorate the 70th anniversary of the D-Day invasion. Utilising the latest technologies and the world’s most advanced software, the team surveyed 511 km2 of sea floor, producing an enormous 11 TB of data. Employing HYPACK hydrographic surveying software, the team was able to assimilate over 4 billion soundings from multi-beam sonar to produce very high resolution color
3-dimensional images of the seabed, including many remaining artefacts from the D-Day landings.

HYPACK® also supports search operations for smaller-scale objects, using survey data to look for objects of interest, then supporting the work of a dive team using the Diver6 system.
Diver6 is a diver and dive operations mobile support system. This advisory system allows dive masters to monitor and track divers beneath the surface of the water for greater situational awareness. The system provides up-to-date information on the divers in the water allowing the dive master to make faster, safer, and more accurate decisions. All monitoring aspects of the dive are recorded and can be used for later analysis and audit.


EROSION AND SEDIMENTATION STUDIES


HYPACK® may be used to study the rate of erosion and sedimentation in your project area.  Use the tools in HYPACK® to compare multiple sets of survey data collected over time. The TIN MODEL module can draw overlapping surface models and calculate the volume of material from the first surface that falls above or below the surface of the second. Additionally, CROSS SECTIONS AND VOLUMES provides profile visualization of the data sets and a selection of volumes calculation methods that compare the difference in the volumes compared to the channel design.
Erosion and sedimentation data can be used for ecological studies or to predict the frequency and extent of work required to maintain waterways for boating traffic.


BEACH RECLAMATION PROJECTS


Beach reclamation is the act of restoring a beach from erosion. Sand is added to the area that was lost to erosion "reclaiming" the shoreline that once was or widen the existing beach. Reclamation does not just occur on ocean beaches but any beach or shoreline that is subject to severe erosion.


SUB-BOTTOM ID AND PROFILING


Sub-bottom Identification approximates granularity of surface sediments over your survey area based on the E1 and E2 ranges from seabed ID systems. The Seabed ID device driver uses the SeabedID Square during SURVEY, or during postprocessing in the SEABED STATISTICS program, to apply classification numbers for each sounding record according to the E1-E2 range in which it falls. You can use these Seabed ID numbers to color your matrix in SURVEY or HYPACK®, or plot your soundings and track lines in HYPLOT.

Sub-bottom profiling measures sedimentary layers below the surface layer. Sub-bottom profilers are used extensively in offshore, coastal and port engineering and geotechnical site surveys, renewable energy surveys, dredging studies, mineral exploration and habitat mapping projects. The interpreted data from these systems includes the thickness and qualitative sediment characteristics of the different sediment layers that comprise the sub-bottom strata.


ADCP


- ADCP PROFILE displays color-coded flow data with the channel cross section. It can print or plot the resulting cross section graphs. The ADCP PROFILE program also creates textual discharge reports that you can save and print, and generate georeferenced DXF charts of your current vectors.
- ADCP IN SITU analyzes data collected by a stationary Acoustic Doppler instrument. This type of project would monitor current, tide, salinity and pressure at a set destination over an extended period of time. ADCP IN SITU reads data logged by Teledyne-RDI, SonTek and Nortek (NDP or Aquapro) devices using their firmware. It then presents your data in a variety of displays where you can inspect and edit your data.

MAGNETOMETER

In the MAGNETOMETER EDITOR, you can use targets to mark anomaly locations and store detailed data about each anomaly. Magnetometer targets record the Peak Minimum and Peak Maximum (gamma) attributes and calculate the Peak Spread. When you have a target range marked, you can output the information to a RTF (Rich Text Format) report. This provides all of the statistical data about the selected data range and an optional screen capture of the WMA window.

Normalized magnetometer data can effectively displayed as 2-dimensional contours generated in the TIN MODEL program. Contoured data clearly shows your monopolar and dipolar target areas.

HYPACK FOR SINGLE BEAM SURVEYS

HYPACK®’s SURVEY program provides you with the power and flexibility to quickly complete your survey work. SURVEY accepts input from GPS, range-azimuth systems, echosounders, magnetometers, telemetry tide systems, and over 200 other sensors. It also provides positioning data for our SIDE SCAN SURVEY program (a standard part of HYPACK®) and the HYSWEEP® Multibeam SURVEY program (an optional module of HYPACK®).

The SURVEY program allows you to track multiple vessels. You can track your own survey vessel, or a vessel and a towfish, or a vessel and an ROV or multiple vessels with the same easy-to-use program.

HYPACK®’s time stamping and clock synchronization routines are the industry’s best. Our SURVEY program was the industry’s first in using RTK GPS to determine real time water level corrections (RTK Tides). SURVEY remembers the screen layout and restores it each time you start. The SHARED MEMORY programs allow you to share real time SURVEY data with other applications.

The 3DTV program can be run simultaneously with SURVEY to give you stunning real-time visualizations of the vessel or ROV’s position over a surface model.

HYPACK FOR CHART PRODUCTION

HYPACK®’s ENC EDITOR allows you to modify existing ENCs in S-57 format. Whether you want to move a buoy, create a new light, import the latest survey data or create an ENC by digitizing a TIF, the ENC EDITOR is a powerful tool that can perform your basic ENC editing tasks. The ENC EDITOR provides for full attribution of S-57 features and can also display IENC symbols and information from AML.

The ENC EDITOR can also be used for real time verification of ENC charts. Running side-by-side with the HYPACK® SURVEY program, the user can mark targets (manually or with a hand-held laser) in SURVEY and then query ENC EDITOR for a list of features in that area. The user can then decide whether to move existing features or to create a new feature at the target position.

The ENC EDITOR is a standard feature of HYPACK®.

HYPACK FOR SIDE SCAN

HYPACK® is the only hydrographic software package that offers side scan collection, mosaicking and targeting as a standard part of our package. The SIDE SCAN SURVEY program supports analog and digital side scans, including some of the latest dual frequency and high resolution side scans.

HYPACK®’s side scan processing routines accepts input from side scan or from the pseudo-side scan available from many multibeam systems. It can also handle XTF files from several side scan manufacturers own logging software.

Targeting can be performed in real time, or in post-processing in the SIDE SCAN MOSAIC program. Target measurement tools can be used to capture a GeoTIF image of each target, make measurements of its length, width and height, and save it to a Target Book. The Target Book is in Rich Text Format and can be e-mailed and reviewed by clients or home offices in Microsoft Word®.

In HYPACK® Version 2008, the GEOCODER™ program was integrated as a standard side scan processing tool. GEOCODER™ was developed by Dr. Luciano Fonseca of UNH-CCOM and provides advanced mosaicking and bottom classification routines.

HYPACK FOR MULTIBEAM, LIDAR, AND WATER COLUMN

HYSWEEP® is an optional module that provides for the calibration, data collection and data processing of multibeam sonar data inside the HYPACK® package. HYSWEEP® has been integrated to almost all multibeam systems, including those from Reson, Kongsberg, Elac, R2sonic, Norbit, Pico. With over 2,000 HYSWEEP® users on six continents, HYSWEEP® has proven to be powerful, cost effective and easy to learn,

Although software packages provided by multibeam manufacturers might be great at data collection, they are usually weak when it comes to generating final products. What’s great about HYSWEEP® is that it is fully integrated into HYPACK®, allowing you access to all of the great final product routines, including volume computations using your multibeam data.