GPR-SLICE(c) v7.0 Ground Penetrating Radar Imaging Software
GPR-SLICE v7.0 (1994-2018) is a comprehensive ground penetrating radar imaging software designed for creation of 2D/3D subsurface images for use in a variety of geotechnical, engineering and archaeological applications.
GPR-SLICE began development in 1990 and became a full commercial software by 1994. The first Windows version of the software was released in 2001. The software is directly marketed by the Geophysical Archaeometry Laboratory Inc. and our affliated worldwide distributors.
GPR-SLICE is compatible with all the major manufacturers of GPR including:
Geophysical Survey Systems Inc
Sensors and Software
3D Radar of Norway
SEGY and SEG 2
Plus customized formats for research radar systems
GPR-SLICE multi-channel extended licenses include integration of:
Mala Guideline Geo Sweden
3D Radar Geoscope Norway
UTSI United Kingdom
Koden Radar Japan
Radar Portal Australia
*** with complete integration of GPS and total station
GPR-SLICE applies a unique process of radargram desampling/binning and then recreates GPR data volumes using estimation algorithmsfor single channel - coarsely spaced profile lines. For multi-channel dataset direct compilation to pulse 3D volumes can be quickly generated without interpolation because of the hi-density acquisition. GPR-SLICE handles all surveyed data densities to make the most comprehensive subsurface imagery. Many researchers have migrated to the software because of the professional quality images that can be created in the software.
GPR-SLICE software is designed to remove line noises and artifiacts that show profile directions and pixelation noises from incomplete sampling of the ground.
GPR-SLICE images help interpreters extract hidden information contained in noisy radargrams which would otherwise be lost and never revealed within the raw data.
GPR-SLICE was the first commericial software in 2003 to release complete integration with GPS navigation, including GPR/GPS volume imaging and time slices. The software is completely integrated for GPS with all the major manufacturers of GPR. GPR-SLICE is integrated for Total Station navigation where the typical GPS NMEA string formats are used.
GPR-SLICE was the first software to provide for static corrections that account for the tilt of the antenna over sites with topography.
GPR-SLICE has a unique overlay option, which provides for comprehensive subsurface maps that synthesizes structures located at different depth levels. Civil engineers that are surveyors of infrastructure can use features in GPR-SLICE to image tunnels and present 3D slices of tunnel or cylindrical volumes. With the addition of our built-in OpenGL 3D Modules GPR-SLICE Open GL Volume, real time flythroughs, real time isosurface rendering, transparency and fences yield dynamic displays of GPR-SLICE data volumes. GPR-SLICE includes built-in Open GL options for mixing of 3D time slice volumes, isosurfaces, horizon surfaces with raw or processed radargrams in the same graphic dialog.
GPR-SLICE has complete Vector navigation formats - random GPR tracks + the yaw, tilt and pitch of the antenna are all included in the most generalized navigation. Vector navigation is all inclusive of the navigation for regular surveys, GPS, total station navigated surveys, any navigated survey - but with the antenna orientation. What this means is that any survey of a GPR antenna in 3D space can be mapped and the radarscans projected into their proper location.
GPR-SLICE v7.0 is the first commercial software to provide for vector imaging.
GPR-SLICE has been providing support in the software for 4D GPR monitoring. GPR monitoring is fastly becoming an important market in GPR surveying to reoccupy sites and to determine the differences in time that have occurred. GPR monitoring of runaways, railway systems, and other critical infrastructures are getting noticed by the engineering community. GPR time slice differencing since 2003 and recently volume differencing for 4D measurements have become available in 2015.
GPR-SLICE Software features:
2D/3D time slices
3D volume displays, Isosurface Rendering, Fence Plots
Exportable Animation menu
Split-screen options for time slice/radargram anomaly picking
Complete customizable multi- time slice and multi-radargram displays in a single graphic dialog
Easy grid concatenation and appending
KMZ - Google Earth
BPW, TFW, JPW, PFW - Arc GIS export
OpenGL Georeference bitmpa overlay
Antenna yaw, pitch and roll used in projecting scans
Longitudinal tunnel radar survey menu for automatic vector setting
Radial tunnel survey menu for automatic vector setting
Meandering track menu and automatic vector setting
Complete GPS Navigation Integration Including:
GPS 2D/3D Time Slices
GPS 2D/3D Radargram Displays
Specialized menu for editting/filtering GPS fallout
Batch GPS topography corrections
Builtin UTM utility conversion
Exportability to GIS (world file creation)
Direct export to Google Earth (*.kmz image file creation
Builtin GPS staggering/scan lag latency correction
Complete GPS integration
Open GL Graphics
2D surface displays and automatic animation creation
Open GL 3D real time flythroughs, x, y, z, xy fence diagrams, isosurface rendering
Open GL 3D radargram displays, with pulse thresholding and automatic animation creation
Open GL Object drawing for interpretation (pipes, rectangular volumes, spheres etc ) with DXF file creation
Cylinder volume warping for imaging tunnels
BlueBox (c) Batch processing
one button click macros from raw data to radar signal processing to image processing and final 3D volumes!
one button click macros for xy decoupled concrete imaging for enhancing rebar to final 3D volume
ability to save BlueBox setups and load/save for new project applications
nthesizing single imagery from multiple user defined slice levels with complete transform control
Horizon Detection and Mapping
Automatic horizon detection
Layer depth maps using variable layer velocities
Horizon amplitude profiles and maps
Horizon slicing in Open GL 3D Volume
4D GPR survey support
Time slice differencing for GPR montioring
Radargram differencing for GPR monitoring
Volume differencing for GPR monitoring
FK Radargram filtering
0ns scan-by-scan or 0ns line-by-line offset auto detection/editing of radargrams menu
Migration with variable velocity profiles
Bandpass filtering and spectra menu
Deconvolution, spectral and spiking
Batch processing for up to 8 filters
Mosaic correction menu
2D FFT grid filtering
Individualized map transform controls
Grid low/hi pass filtering
2D Geophysical data import
Magnetometer, Resistivity, EM data and any 2D/3D data.
Image synthesizing of GPR, Mag, Resistivity and EM using Overlay Analysis