wiki:WKTRaster

Version 95 (modified by pracine, 15 years ago) ( diff )

PostGIS WKT Raster Home Page

What's new about WKT Raster?

December 10, 2009
Tyler Erickson speaks about its need for PostGIS WKT Raster at FOSS4G 2009
Tyler Erickson, Research Scientist at the Michigan Tech Research Institute presented his research project at FOSS4G 2009 in Sydney, Australia. Tyler uses GeoDjango and PostGIS to visualise the results of CO2 simulation models directly in Google Earth. WKT Raster would enable him to easily do raster/vecter spatial analysis from his web application. Tyler's project was selected as one of the professional winners in Google’s 2009 KML in Research Competition.

December 4, 2009
Jorge Arevalo full time on WKT Raster!
Jorge Arevalo who developped the first version of the GDAL WKT Raster driver during the summer of 2009 will be working for at least one year on WKT Raster. Jorge is working for DEIMOS Space, a Spanish aerospace company leading the Espana virtual project. Jorge's superior, Miguel Lizondo, confirmed that Jorge would be devoting most of his time to WKT Raster in the coming year. This commitment should normally be extended for a second year afterward.

Jorge will follow the planned roadmap and will be the main developper for the coming year. Mateuzs Loskot will continue contribute his spare time to the project and Pierre Racine will help Jorge with the specifications and the general management of the project.

Welcome (back) Jorge!

October 16, 2009
PostGIS WKT Raster at Geomatique 2009 in Montréal!
Pierre Racine will present WKT Raster at Geomatique 2009 in Montréal on October 20. We hope we can get more people interested by the project! See the presentation (PDF)!

June 04, 2009
A prototype GDAL driver to WKT Raster implemented this summer!
Thanks to Mateusz Loskot, who proposed the Google Summer of Code project and Jorge Arevalo the student who was selected to implement it.

Welcome to the WKT Raster project home page!

PostGIS WKT Raster is an ongoing project aiming at developing raster support in PostGIS. It is a new project very different from the previous PGRaster project and also very different from Oracle Spatial GeoRaster.

The goal of WKT Raster is to implement the RASTER type as much as possible like the GEOMETRY type is implemented in PostGIS and to offer a single set of overlay SQL functions (like ST_Intersects) operating seamlessly on vector and raster coverages.

Installation

  • Linux - You will have to compile WKT Raster following the instructions in the Development Info section.
  • Windows Binaries - Windows Experimental Builds If you are running PostGIS on Windows, you can find fairly recent binaries of WKT Raster in the Windows Experimental Binaries section along with binaries of the most recent PostGIS trunk.

Development Info

  • Planning

    • Beta 0.1.6: Summer 2010.
    • Beta 0.2.4: Winter 2011.
    • Look at the planning page for a detailed schedule and to know how to contribute.

More Info

For more details and examples of application using WKT Raster:

  • Have a look at the PowerPoints:

    • Original Project Presentation - rationale, examples and preliminary specifications: PPT, PDF (v1.0)
    • Introduction to WKT Raster - Geomatique 2009, Montréal, october 2009. PDF

Overview of Planned PostGIS WKT Raster Features

WKT Raster…

…is as simple as PostGIS…

  • one table = one raster coverage (like a vector coverage)
  • one row = one tile or one raster object (like a vector coverage where one row = one geometry)
  • only one new type: RASTER (like the PostGIS GEOMETRY type)
  • each raster tile has a pixel size, a width and a height, a variable number of band, a pixel type per band and a nodata value per band. Everything essential to do base raster GIS operations.

…is an extension of PostGIS to be installed separately

  • merge with PostGIS might occur in the future…

…has an import/export mechanism similar to shp2pgsql

  • raster2pgsql and pgsql2raster utilities allowing import/export of a single raster or a batch of raster into a tiled coverage.

…allows easy conversion from/to geometry/raster…

  • ST_AsPolygon(raster) → geometry
  • ST_AsRaster(geometry, pixelsize) → raster

…implements base GIS raster operations available in most GIS…

  • ST_Resample(raster, pixelsize, method) → raster
  • ST_Clip(raster|geometry,geometry) → same type as first argument
  • ST_Reclass(raster|geometry,string) → same type as first argument
  • ST_MapAlgebra(raster|geometry, raster), mathematical expression, "raster"|"geometry") → raster/geometry
  • etc…)

…introduces raster/geometry seamless geometry constructors…

  • so you don't have to bother whether the layers are in raster or vector form when using analysis functions.
  • ST_Intersection(raster|geometry, raster|geometry, "raster"|"geometry") → raster/geometry
  • ST_Union(raster|geometry, raster|geometry, "raster"|"geometry") → raster/geometry
  • ST_Accum(raster set|geometry set, "raster"|"geometry") → raster/geometry
  • ST_Transform(raster|geometry, SRID) → same type as input
  • etc…

…and seamless geometry operators…

  • ST_Intersects(raster|geometry, raster|geometry) → boolean
  • ST_Contains(raster|geometry A, raster|geometry B) → boolean
  • etc…

…allows raster storage INSIDE the database (as WKB)…

  • for efficient overlay analysis operations between vector and raster layers…

…or OUTSIDE the database (as JPEG or TIFF)…

  • so desktop and web applications can quickly access and load raster tiles and nevertheless benefits from the powerful PostGIS GiST spatial index. Every WKT Raster SQL functions working with in-db raster tiles work seamlessly with out-db raster tiles.

…introduces the concept of raster objects…

  • geographic features are stored as variable size raster tiles instead of polygons.
  • allows vector to raster conversion without lost of information.

…is much more simple than PGRaster and Oracle GeoRaster! WKT Raster supports…

  • only one type (instead of two in Oracle Spatial: SDO_GEORASTER & SDO_RASTER). In WKT Raster there are no differences between rasters and tiles: a tile is a raster and a raster is a tile. i.e. one row = one tile = one raster; one table = one raster coverage.
  • no metadata (like PostGIS)
  • no masks (you can create a mask as a band)
  • no multiple dimensions (only two: x, y). Not to be confused with bands; WKT Raster DO supports multiband raster…
  • no pyramids (reduced resolution coverages can be stored as a separate layer)

What do people think about WKT Raster?

Paul Ramsey (founder of PostGIS):

This proposal is better than any I have seen, addresses solving problems that if solved will provide actual new functionality and benefit to users, and clearly you've thought this through over some time

Regina Obe (coauthor of PostGIS in Action):

The functions WKT Raster proposes look pretty cool actually and my vision of the benefits of storing raster in the database are covered in it

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