GPSeismic® is a suite of survey, mapping and data ...



GPSeismic® by Dynamic Survey Solutions, Inc.

GPSeismic® is a suite of survey, mapping and data management applications written by Dynamic Survey Solutions, Inc. GPSeismic® applications are Windows® XP (SP2 and SP3), Vista and Windows 7 compatible and assist the GPS, INS, and conventional surveyor with a wide variety of tasks including the following:

A wide range of both graphical, numeric and SQL based controller upload point selection methods and direct raw data file processing capabilities. Support for numerous survey systems with provision for import of data from any ASCII or binary file with known structure…

Direct serial communication support for GPS handheld devices including Garmin, Magellan and Lowrance including the ability to create and upload Garmin IMG files…

Fully integrated geodetic transformations and geoid model support…

Full featured mapping capabilities including support for ESRI SHP, AutoCAD® DXF, DWG and DGN layers as well as geo-referenced raster images including TIF, JPG, BMP and PNG. A registration utility shared between applications allows for the creation of world files or the transformation of existing ones…

Automatic retrieval, ortho-rectification and registration of imagery available from Google Maps…

Instant Google Earth KML/KMZ file creation of preplots, postplots and even vector files…

Numerous preplot generation routines including 2-D lines, crooked lines, 3-D grids, brick patterns, diagonal grids, zig-zag patterns, and oblique grids. Highly adaptable coordinate importing and format conversion including on-the-fly translation, rotation or transformation capabilities…

Powerful graphical and analytical tools capable of solving the most complex survey and design problems including fold analysis, survey exclusion zone creation and use, automatic point offsetting, sorting, interpolation, intersection computations, production calculations, geocentric offset computations, proximity testing, point comparison, and spread checks. Automatic preparation and display of surface and contour maps of height or any survey related element….

Flexible data management capabilities featuring point and click SQL query building and highly adaptive database functionality allowing for any conceivable report or graphic output…

A vehicle navigation program that can be used for vibe tracking or shallow water marine applications…

A fleet navigation application that works with serial or web service data…

A unique option for our Canadian users that integrates all applications with data that forms the Dominion Land Survey fabric…

|Supported Systems |

|[pic]GPS |[pic]Conventional |[pic]Inertial |[pic]Miscellaneous |

|Lecia System 300 |TDS RW5 |Zupt Inertial |GPS Exchange Files |

|Leica System 500 |Topcon |Applanix Inertial |Eagle Navigation BIF Files |

|Leica System1200 |Leica 1200 TPS |NavPac Inertial |Leica Raw Observation Files |

|Leica Viva |SOKKIA |Benco Inertial |Leica GSI 16 Files (upload) |

|Trimble (TDC1 all versions) |CGG (CHE and JOB) |Gipsi Inertial |Surveytech FDC Files |

|Trimble (TSC1 all versions) |Trimble V7 - 10 | |PCX5 Waypoint Files (upload) |

|Trimble (TSC2 all versions) |Nikon | |TDS-48 (upload) |

|Trimble (TSCE all versions) |Carlson RW5 | |Thales Scorpio JRS and PTR Files |

|Novatel Millenium/RT/DL |DCO | |TopSurv Database |

|Ashtech Seismark I/II |GSI | |Waypoint Consulting STA File |

|Geotracer System 2000 |Multitrex 3DL | |Waypoint Consulting GGE File |

|Javad FieldFace CE |PGG | |UKOOA P1/90 |

|WinFrog SDR |SDR (20/33) | |UKOOA P2/94 |

|Eagle Navigation BIF |SEG P3 | |Sonardyne CAL Files |

|Thales Scorpio JRS/PTR |Swift | |SurvCe RW5 Standard Format |

|Waypoint Consulting STA |Topograph | |SurvCe RW5 Carlson Format |

|Garmin | | |SurvCe RW5 Norbert Format |

|Magellan | | |SurvCe Export Format |

|Lowrance | | |Thales RW5 Format |

|TDS RAW and RW5 | | |Topcon Raw Format |

|NMEA GGA | | |Maptech MXF Format |

|UKOOA P2/94 | | |GPTracker System Format |

| | | |Magellan UPT Format |

| | | |Google Earth KML Point Format |

| | | |OPUS Format |

| | | |OziExplorer Point File Ver. 1.0 |

| | | |OziExplorer Waypoint Ver. 1.1 |

| | | |NMEA Message $GPGGA |

| | | |SourceNav Log Format |

| | | |Vibe Tablet |

| | | |ISS Superfile |

| | | |Recon Raw |

| | | |User Defined ASCII |

| | | |User Defined Binary |

| | | |MDB |

| |[pic]Fleet Tracking |[pic]Vibe | |

| |Fleet Management Systems (FMS) |Pelton | |

| | |TigerNav | |

| |Raveon |Sercel | |

| |Teledesign |SSC Vibe | |

| |Kantronics | | |

| |Kenwood | | |

| |PBX Tail Bouy | | |

| |$GPGWPL | | |

| | | | |

| |GPTracker | | |

| |Faucon | | |

|[pic]Geodetic Support |

| |

|Coordinate Systems and Transformations - GPSeismic® provides hundreds of predefined coordinate systems, datums and ellipsoids. The |

|user may also define a coordinate system from more than one dozen projection types including the following: |

| |

|Transverse Mercator/Gauss Kruger |

|Lambert Conformal Conic (2 parallel) |

|Lambert Conformal Conic (1 parallel) |

|Oblique Mercator/RSO |

|Krovak |

|NZMG |

|Stereographic 70 |

|Earth Centered Earth Fixed |

|Latitude Longitude |

|Mercator |

|Stereographic |

|Double Stereographic |

|Polar Stereographic |

|Albers Equal Area |

|Equidistant Conic |

|Laborde Oblique Mercator |

|Cassini/Cassini Soldner |

|Swiss Oblique Mercator/EOV |

| |

|Both Molodensky, Bursa Wolfe and Molodensky Badekas datum transformations can be defined and there is support for interpolative |

|datum transformations such as NADCON and NTV2. Utilities exist for the derivation of Molodensky and Bursa/Wolfe datum |

|transformations from observations in the two desired datums. |

|Geoid Models - GPSeismic® geoid model support includes: |

| |

|US Geoid 93 (geo) |

|US Geoid 96 (geo) |

|US Geoid 99 (bin) |

|US Geoid 03 (bin) |

|US Geoid 09 (bin) |

|Canada GSD91/95 (bin) |

|Canada CGeoid 2000 (byn) |

|Mexico 97 (geo) |

|French RAF (bin) |

|Venezuela MGCV04 (grd) |

|OSU91A (bin) |

|DMA (dma) |

|EGM 96 (bin) |

|EGM 2008 |

|User defined (grd) |

| |

|Note – model extensions are in parenthesis; EGM 2008 has no adopted extension |

|[pic]Data Export Formats |

| |

|Seismic - GPSeismic® is capable of exporting coordinate data in any of the commonly used seismic formats. This includes the |

|following: |

| |

|SEG P1 |

|UKOOA P1/90 |

|Shell SPS |

|Swift CMB |

| |

|It is also possible to export many variations of these files. A flexible ASCII Export Specifications dialog, common to all the |

|GPSeismic® applications, allows the user to include or exclude descriptors and geographic coordinates as well as manipulate card |

|column position, justification, format and precision of all record elements. |

|Mapping - GPSeismic® provides map data in several formats including the following: |

| |

|ESRI Shape (point, line, or polygon types) |

|AutoCAD DXF (point, line and polyline types) |

|Google Earth KML/KMZ (point, line and point/time types) |

|Garmin IMG (point, lines, polygons or combinations) |

|MicroStation DGN |

|Computer Graphics Metafile (CGM) |

| |

|Images can also be registered and provided in TIF, JPG, and PNG formats. |

|Other - GPSeismic® also provides a large number of data export formats that includes but is not limited to the following: |

| |

|Custom Field Defined ASCII, PDF, HTML and RTF |

|Microsoft Excel |

|Microsoft MDB Database |

|Microsoft SQL Server Database |

|Various histograms and graphs of any data element in any of several graphic formats |

|Digital Elevation Models (43 output types) |

| |

|Custom field defined report capabilities include CSV, user defined delimited and fixed card column. There are numerous field |

|formatting capabilities including precision as well as angle and time specific selections. |

|Applications |

| |

|QuikLoad computes or imports stakeout points and transforms them into WGS84 geographic coordinates. It provides graphical and SQL |

|based methods for the user to choose all or several stakeout points for upload to the rover data collector. CAD files and raster |

|images can be displayed in the background to assist in uploading |

|QuikView downloads surveyed rover data and both transforms the coordinates to the desired datum and converts ellipsoid heights to |

|orthometric using a seamless link to any of several available geoid undulation models. Graphical point and click capabilities |

|allows the user to display all relevant coordinate and quality control data for each point. Image and CAD background capabilities |

|as well as numerous visual QC indicators insure that the survey is conducted as planned. |

|QuikMap has numerous coordinate handling capabilities. It can create fold plots, compare coordinate files and draw connecting arcs |

|or lines between matching points. QuikMap can display line profiles, provides several methods of interpolation, and displays and |

|utilizes exclusion zones. Single point or multiple point moves are possible. QuikMap determines line intersections, and performs |

|several types of proximity tests. Custom reports can be made from any operation. Image and CAD background support is included as |

|well. |

|GPSQL  is a sophisticated data management tool with a point and click query building tool, a custom and seismic report builder, DXF|

|and SHP file creation abilities, and embedded graphing module which allows the results of any query to be displayed in one of |

|several types of formats. A seamless two-way link with QuikMap provides the user with the ability to map any of 99 queries as a map|

|layer, or reciprocally, isolate records captured graphically. ASCII files with delimited or fixed card column fields may be |

|imported as new tables to assist in other data management chores such as permitting or drilling. |

|QuikCon provides for conventional data processing Once processed, a map, quality control graphs, and a spreadsheet of all processed|

|data is available. QuikCon also provides traverse adjustment reports, reciprocal shot reports and allows the user to use and |

|prorate azimuth adjustments into the traverse. A sunshot utility that handles hour angle and altitude method is also included.  |

|GPNav is a vehicle tracking application with sophisticated logging routines and outstanding mapping capabilities. Up to 100 map |

|layers are supported and can consist of point, line and polygon SHP files, or registered TIFF, JPG and BMP raster images. GPNav |

|supports real time tracking using either NEMA $GPGGA or Trimble GGK serial inputs. A second comm port optionally allows for a NMEA |

|$HCDM or $PTNHTM magnetic heading messages. A third port can be opened for inputting a NMEA $SDDBS depth message. A fourth port can|

|be opened which represents a secondary NMEA $GPGGA position or you may define a secondary position by offsets from the primary GPS |

|position. You can log on an incoming serial comms event or you may send pre-log and at-log serial events out. You may also relay |

|the primary position to a separate port. There is the capability of looking for several inputs on one port. There is an embedded |

|simulator which can be used for training and configuration purposes. |

|Applications |

|GPArc - is a powerful but easy to learn mapping tool. It allows for up to 100 layers which can be comprised of point, line and |

|polygon SHP files, DXF, DGN and DWG Cad files, or TIFF, JPG and BMP raster images. It also allows the user to import ASCII files |

|and supports .XZO exclusion zones. Imported ASCII files can be transformed in almost any conceivable manner. GPArc features an |

|image registration utility which creates world files or transforms existing ones. GPArc is based on the ArcObjects libraries. These|

|are the same libraries that the ESRI products, ArcInfo and ArcView are built on and therefore allow exceptional rendering and |

|editing capabilities. |

| |

|GPLocator is a fleet tracking application. Its capable of tracking up to 130 vehicles simultaneously. It has a map component in |

|which the user can display registered raster images, shape files , or any combination. There is a tabular component which gives |

|constant readouts of all important vehicle information including position, speed and heading. There is also a quality control |

|component that alerts the user if certain conditions have been met. For example, the user can have an alert raised when any vehicle|

|is within a defined area. |

|GPMonitor is a static GPS monitoring program. It monitors position, DOP, number of satellites, time, fix mode, geoid height, age of|

|corrections, satellite azimuth, elevation, and SNR. There is both a 2D and 3D sky plot of all SVs in view as well as standard SV |

|and DOP bar graph. There are also 2D and 3D depictions of the GPS position relative to the known position . All data can be logged |

|at a timed interval or only when there is a user defined alert. Alerts are based on DOP, number of SVs, data age, survey mode, and |

|actual vs. known position values. A special two monitor mode allows two instances of GPMonitor to engage in a talk-listen |

|conversation. In this mode, the listener compares it’s GPS derived position to that of the talker’s. Data is sent from talker to |

|listener via UDP packets. |

|  |

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