The main goal was to implement in the Serbia integrated technologies for processing, production, storing and disseminating geo-referenced data at national level, through a large know how transfer.
1. IGIS
THE INTEGRATED GEO-
INFORMATION SOLUTION FOR
NSDI AND REMOTE SENSING
CENTER
Vladimir Milenkovic, Mathieu Derrey, Hervé Pichon
2013 November 20th – Beograd
2. Project Purpose and Scope
• The main goal was to implement in the RGA integrated technologies for
processing, production, storing and disseminating geo-referenced data at
national level, through a large know how transfer.
• IGN France International and EADS Astrium have offered support in
creating and implementing NSDI and establishing the center for production
and processing of national geospatial data in Serbia.
• IGN FI have provided real know-how transfer through workshops for
national cartographic data processing and institutional management
methods.
• EADS Astrium have provided the implementation of a remote sensing
capacity : airborne photos, workshops for thematic mappings and data
storage and dissemination.
• The French consortium was present in RGA during the entire process of
technology, skills and knowledge transfer, as well as for the production of
basic products during the 3 year period.
3. IGIS project
National Spatial Data Infrastructure
and Remote-Sensing Centre
for the Republic of Serbia based on IGIS (Integrated Geo-Information Solution)
IGIS Project
Project partners:
Kick-off meeting on 22. September 2010
June 2009 : Contract signed in Paris
IGIS Project Supported by
French authorities
& Serbian authorities
4. • The main idea of the project was to transfer of turnkey technology
and basic data, technical support and training programs, and to
establish long-term cooperation program.
• The implementation of this center allows RGA to respond
adequately to the needs of the state and to be recognized at
national, regional and international level. By using such
technologies, RGA is able to play a major role in regional and
international cartography and geo-information activities.
• By utilizing the IGIS Project, RGA can produce, organize, and
distribute geospatial data, which will be available both to private
and public sector.
Delivery
5. Space & aerial data over 4 years (Spot 4, Spot5, Geoeye, ADS80, UCXp, LIDAR,
other available satellite data …);
Infrastructure delivery in Nov 2011;
Large phase of training/know-how transfer over 3 years;
+ 1 year of maintenance: 2014.
IGIS project - planning
3 years project3 years project
System design
Site recommendations
Infrastructure
Customization
Training planning
Data delivery planning
First Dataset deliveries
Parameter setting
Adaptations
Tests & assembly
Validation
Following Data sets
delivery
Maintenance
Support
Training & know how
transfer
T0 + 14 months Year 2 Year 3
7. IGIS Project
Vladimir Milenkovic
Thematic Workshops Production
System Administration
Infrastructure Logistics &
Installation
Dragan Bogdanovic
Administrative & Contract
Budimir Stankovic
Data Administration
Geometric
Jelena Varenica Matic
D. Vucetic
Remote Sensing
Jelena Varenica Matic
Aleksandra Golusin
Stereo Plotting
Slavisa Aleksic
M. Colakovic
Map Edition
S. Dabic
Vesna Milic
Web Portals
Dragica Pajic
Aerial Acquisition
Jelena Nikolic
LIDAR Acquisition
Darko Vucetic
Satellite Acquisition
Vladan Nikolic
LIDAR
Darko Vucetic
J. V. Matic
Project dual Organisation
8. IGIS project conceptThe IGIS concept is comprised of two core components:
1)Data: provides the content of the SDI and the corresponding data that describe
the dataset
2)Services: enable access to and use of the data
Data
Satellite imagery and digital aerial orthophoto
acquisition
LIDAR acquisition
Remote sensing:
land use, environmental and agriculture maps
Stereo plotting: production of 3D vector
topographic data base
Map editing: digital and hardcopy maps
Services
Technical infrastructure:
Archiving and hosting capabilities
Central Data Repository
Web Portals for data and service dissemination
METIS
INSPIRE compatible
WebBoutique/DataDoors
10. IGIS Key figures
– 320 hours of “At Factory Training” (in France)
– 1240 hours of “On Site Training” (in Serbia)
– 1600 hours of “On the Job Training” (in Serbia)
– 2 years Support
– 1 year Maintenance
– < 74 000 km2 aerial data
– < 750 000 km2 Spatial data
– 60TB of central digital storage space
– 25 Servers & computing nodes
– 52 workstations, more than 60 operators
– 2 Interoperable web Portals
– 2 A0 Ploters
– 2 A3 printers
11. ‘End User’ ProductsBase Data
Production Workflow
Geometric
workshop
Remote
Sensing
workshop
Stereo-
Plotting
workshop
Base
Satellite
Data
Base
Aerial
Data
LiDAR
Data
Map Editing
workshop
Production chain
Agri-Environmental
Products
Digital Terrain
Model
LiDAR
workshop
Vector Topo Products
Maps
17. Project Outcomes
The overall result of the IGIS project:
Development of capabilities for production, update and dissemination of
geoinformation for the benefit of Serbian citizens, as well as the public and private
sectors
Efficient and optimised process to maintain the spatial data up to date
Production of new databases within the RGA is in progress according to INSPIRE
Annex I data models
Access to metadata, spatial data and services via the Internet
Improved and efficient communication and geoinformation exchange between
the public authorities
18. • A unique national data base
• Homogeneous geographic data
• Compatibility with European standards
• An access to data supported by government in terms of its
production, maintenance and finance
• Provision of new services related to geographic information and
private sector development
=> inter-institutional cooperation at national level=> inter-institutional cooperation at national level
=> first level of cooperation on the protection of the=> first level of cooperation on the protection of the
environment, agriculture and civil protectionenvironment, agriculture and civil protection
Project Benefits