Upload
hoangthuy
View
223
Download
3
Embed Size (px)
Citation preview
Discover & Discover3D within Civil engineering companies
Chris Jenkins, Natural Resources Pitney Bowes Business Insight
What is the MapInfo Professional extension Encom Discover?
Field data capture Environmental data
Common spatial formats .shp, .tab, .dxf, 3Ddxf, etc
Non-spatial data .xls, .txt,.csv, .mdb
Dis
para
te D
ata
Silo
’sDB
Spatial DB
FileServer
Industry Specific DB’s
Map
Analyse
Interpret
Report
MapInfo ProDiscover 3D
Search OGC CSW metadata catalogs
Search data outside of OGC CSW
Stream Bingmaps
Drillhole/Borehole/WellData
OGC CSW
Civil Engineering Environment
MapInfo Pro & Discover within Engineering
• Share data throughout departments
• Integrate CAD modeling into a mapping environment
• Manage on project by project basis
Discover specific tools
• What can add value to MapInfo Professional from an Engineering/environmental standpoint?
Borehole/Well/Drillhole Management
• Project Data Management• Simple UI for managing all related files• Sessions can be saved linking all files used (as in workspace)
• Database Importers• gINT• WinLog• SQL Server• Oracle
2 1/D (Cross Sections)
• Most GIS solutions deal with X & Y or X, Y & Z. In some industries it is important to be able to view data in on an X,Z plane i.e. a cross section taken along a specified vector.
• This is particularly true in Earth Sciences.
• It may be geological cross sections to determine mineralisation,ground stability or geophysics sections such as resistivity to determine aquifers.
Cross Section examples
Cross Section examples
Cross Section examples
• Automatically extract drainage networks and associated catchments from a gridded DEM surface
• Common requirement in many disciplines including environmental monitoring, hydrology and engineering
Catchment and drainage analysis
Surface water tools
• Automatically extract drainage networks and associated catchments from a gridded DEM surface
• Common requirement in many disciplines including environmental monitoring, hydrology and engineering
Catchment and drainage analysis
Surface water tools
• Automatically extract drainage networks and associated catchments from a gridded DEM surface
• Common requirement in many disciplines including environmental monitoring, hydrology and engineering
Catchment and drainage analysis
Surface water tools
• Automatically extract drainage networks and associated catchments from a gridded DEM surface
• Common requirement in many disciplines including environmental monitoring, hydrology and engineering
Catchment and drainage analysis
Surface water tools
Temporal Analysis in MIP
• Sample/Test location mapped
• Results are ‘joined’to location via sample number
• Multiple element graph displays results
• Query graph in the map window
• Identify patterns and distribution of samples
Temporal Analysis in MIP
• Sample/Test location mapped
• Results are ‘joined’to location via sample number
• Multiple element graph displays results
• Query graph in the map window
• Identify patterns and distribution of samples
Temporal Analysis in MIP
• Sample/Test location mapped
• Results are ‘joined’to location via sample number
• Multiple element graph displays results
• Query graph in the map window
• Identify patterns and distribution of samples
Volume calculations
• Cut/Fill
• Surface Area
• Depth to Bedrock
• Aquifer volume
Volume calculations
• Cut/Fill
• Surface Area
• Depth to Bedrock
• Aquifer volume
Volume calculations
• Cut/Fill
• Surface Area
• Depth to Bedrock
• Aquifer volume
Build massive topographic grids from LIDAR data wit hin the MapInfo Professional environment
LIDAR support
• Import LIDAR LAS data as attributed point objects using the new LIDAR LAS importer - for viewing in both 2D and Discover 3D
• Convert ASCII and binary LAS data into gridded surfaces using the new Large Multi-file triangulation tool
• Manipulate and analyze gridded LIDAR data with the Grid Utilitiesenhanced support for massive (1GB+) grids, including functionality such as calculating the Volume between grids, a grid’s Surface Area and roughness, or it’s Slope angles and direction.
Discover 11 enables the visualization of LIDAR data with existing vector, raster and grid data sets, as well as it’s analysis
Large Grid supportLarge Multi-file triangulation tool
Discover can build massive grids by triangulation of the following data sources
• Multiple input files
• Massive LIDAR ASCII and LAS files
• Massive MapInfo point TAB files
Large Grid supportLIDAR LAS gridding example
• Input: 2,178 individual AS PRS LAS files (16Gb on disk)
• Output Grids:
Elevation and Intensity • Total input points:
883, 066, 457 (all files)• Output Grid size: 55003 x
61 003 cells at 1m x 1m
(i.e. approx 55km by 61km)
• Gridding time: 4. 7hrs
Collected in West Virginia in 2004 for floodplain mapping
Large Grid supportLIDAR LAS gridding example
Large Grid supportLIDAR LAS gridding example
Large Grid supportLIDAR LAS gridding example
Overview –
3D view
CAD model import
• Set Projections
• Create Points or Vectors
• Transform coordinates during import for accurate location of non-spatial DXF files
• Import 3D DXF files
• View from North, East, South, West (Cross-sections)
• Output each separate layer as an individual file
3DS Import
• Building models for planning purposes
Using Vector models in queries
Conceptual Site Models
• Model & Map multiple data sources to enable informed and reliable decision making during the project planning stage
• Ground Water monitoring
» Managing Wells» Visualising & Interpolating groundwater level» Monitoring temporal change
• Hydrology
» Drainage/River catchment delineation» Flash Flooding
Other projects
• Pipeline projects• Infrastructure planning• Contaminated land• Borehole, well, drillhole planning / display
Questions