Presentation is loading. Please wait.

Presentation is loading. Please wait.

Friso Penninga TU Delft Sander Oude Elberink ITC Enschede 3D Topography.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Friso Penninga TU Delft Sander Oude Elberink ITC Enschede 3D Topography."— Presentation transcript:

1 Friso Penninga TU Delft Sander Oude Elberink ITC Enschede 3D Topography

2 3D data modelling3D DBMS Analysis3D data acquisition

3 3D Topography 3D data modelling Objective: develop a data structure capable of handling large data volumes and offers support for querying, analysis and validation. Model characteristics: full 3D decomposition of space, apply a tetrahedron structure based on Poincaré simplicial homology as mathematical foundation

4 3D Topography 3D data modelling Results: A new innovative approach to 3D data modelling: validation and analysis through topology reduces data storage (stored in one single- column table!) no explicit updates of topology and less dimensional simplexes full control over orientation based on a solid theoretical foundation (100 years old math)

5 3D Topography 3D data acquisition Objective: develop an automated 3D data acquisition method, by integrating laser altimetry data with 2D GIS data.

6 3D Topography 3D data acquisition 3D acquisition algorithm: Segmentation based filtering of small objects in laser data. Assigning laser data to map data in a sophisticated map and laser growing & fusion algorithm. Integrating object knowledge to produce horizontal lakes and smooth roads. Additional 3D boundaries have automatically been reconstructed to allow the reconstruction of 3D objects.

7 3D Topography 3D data acquisition P2 P1 P2 P3

8 3D Topography 3D data acquisition 1 road 12 polygons 1000 m 2 5 correct laser points >150 false laser points Data fusion problem

9 3D Topography 3D data acquisition Data fusion solution: Combined map & laser growing

10 3D Topography 3D data acquisition BeeldbankVenW.nl

11 3D Topography 3D data acquisition ResultsQuality check

12 3D Topography 3D data acquisition Quality check <0.2 m green 0.2 – 0.5 m yellow >0.5 m red

13 3D Topography www.gdmc.nl/3Dtopo Contact: Peter van Oosterom

Download ppt "Friso Penninga TU Delft Sander Oude Elberink ITC Enschede 3D Topography."

Similar presentations

Computing Persistent Homology

Computing Persistent Homology
INTERNATIONAL INSTITUTE FOR GEO-INFORMATION SCIENCE AND EARTH OBSERVATION 3D buildings Sander Oude Elberink Status 6-3-08.

INTERNATIONAL INSTITUTE FOR GEO-INFORMATION SCIENCE AND EARTH OBSERVATION 3D buildings Sander Oude Elberink Status
Object Relational Model Spatial Queries. Query Model Spatial Layer Data Table where coordinates are stored Primary Filter Spatial Index Index retrieves.

Object Relational Model Spatial Queries. Query Model Spatial Layer Data Table where coordinates are stored Primary Filter Spatial Index Index retrieves.
Store RDF Triples In A Scalable Way 2012-03-23 Liu Long & Liu Chunqiu.

Store RDF Triples In A Scalable Way Liu Long & Liu Chunqiu.
Robot Sensor Networks. Introduction For the current sensor network the topography and stability of the environment is uncertain and of course time is.

Robot Sensor Networks. Introduction For the current sensor network the topography and stability of the environment is uncertain and of course time is.
From portions of Chapter 8, 9, 10, &11. Real world is complex. GIS is used model reality. The GIS models then enable us to ask questions of the data by.

From portions of Chapter 8, 9, 10, &11. Real world is complex. GIS is used model reality. The GIS models then enable us to ask questions of the data by.
Peter van Oosterom, project leader (TU Delft) 3D Topography.

Peter van Oosterom, project leader (TU Delft) 3D Topography.
June 2, 20151 Mathematics and geo-information, what to present? too many choices… geo-information at the roots of mathematics (geometry) classic surveying.

June 2, Mathematics and geo-information, what to present? too many choices… geo-information at the roots of mathematics (geometry) classic surveying.
Cartographic and GIS Data Structures

Cartographic and GIS Data Structures
1 Saturday, November 22, 2008 ToolMap - ‘SION’ Method : a new framework for digital geological mapping L. Schreiber, P. Ornstein, M.Sartori, A. Kühni 1.

1 Saturday, November 22, 2008 ToolMap - ‘SION’ Method : a new framework for digital geological mapping L. Schreiber, P. Ornstein, M.Sartori, A. Kühni 1.
Geographic Information Systems

Geographic Information Systems
Chapter 3 2D AND 3D SPATIAL DATA REPRESENTATIONS 2008-09-25 김 정 준.

Chapter 3 2D AND 3D SPATIAL DATA REPRESENTATIONS 김 정 준.
Gunnar Misund1 REAL TIME MANAGEMENT OF MASSIVE 2D DATASETS Gunnar Misund.

Gunnar Misund1 REAL TIME MANAGEMENT OF MASSIVE 2D DATASETS Gunnar Misund.
July 13 2006 1 A TEN-Based DBMS Approach for 3D Topographic Data Modeling Friso Penninga (TUD), Peter van Oosterom (TUD), and Baris M. Kazar (Oracle) SDH.

July A TEN-Based DBMS Approach for 3D Topographic Data Modeling Friso Penninga (TUD), Peter van Oosterom (TUD), and Baris M. Kazar (Oracle) SDH.
Introducing GIS Getting to Know ArcGIS Desktop. Brief History Recap  Studying the world using maps and globes  Models are now found inside computers.

Introducing GIS Getting to Know ArcGIS Desktop. Brief History Recap  Studying the world using maps and globes  Models are now found inside computers.
DASHBOARDS Dashboard provides the managers with exactly the information they need in the correct format at the correct time. BI systems are the foundation.

DASHBOARDS Dashboard provides the managers with exactly the information they need in the correct format at the correct time. BI systems are the foundation.
Raster and Vector 2 Major GIS Data Models. Raster and Vector 2 Major GIS Data Models.

Raster and Vector 2 Major GIS Data Models. Raster and Vector 2 Major GIS Data Models.
THE FUSION PROCESS OF LIDAR AND MAP DATA TO GENERATE 3D CITY AND LANDSCAPE MODELS SANDER OUDE ELBERINK GEOSPATIAL WORLD FORUM 16 MAY 2013.

THE FUSION PROCESS OF LIDAR AND MAP DATA TO GENERATE 3D CITY AND LANDSCAPE MODELS SANDER OUDE ELBERINK GEOSPATIAL WORLD FORUM 16 MAY 2013.
Introduction to GIS. Watershed Discretization (model elements) + Land Cover Soil Rain Results Intersect model elements with Digital Elevation Model (DEM)

Introduction to GIS. Watershed Discretization (model elements) + Land Cover Soil Rain Results Intersect model elements with Digital Elevation Model (DEM)
Prepared by Abzamiyeva Laura Candidate of the department of KKGU named after Al-Farabi Kizilorda, Kazakstan 2012.

Prepared by Abzamiyeva Laura Candidate of the department of KKGU named after Al-Farabi Kizilorda, Kazakstan 2012.

Similar presentations

Ads by Google