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create 
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facilitate access to geoinformation in such a heterogenous 
environment, and to provide the mechanisms to ensure that 
standards for data production and exchange are available 
and maintained. The system should also support 
integration, at different levels of decision making 
(horizontally: across different thematic databases; vertically 
from local to national levels), of distributed databases in a 
federated system perspective. At the ITC, research in this 
field focuses on the integration of institutional, technical and 
economical aspects of geoinformatics, to realise the gradual 
implementation of a Geoinformation Utility in different 
countries. This integration is represented in Fig.2. 
5. RESEARCH PROGRESSES 
5.1 Definition of a planning and control framework 
The development of an Information Utility in a well- 
coordinated and integrated manner requires the setting of 
a comprehensive and stable planning framework in time 
perspective. The planning framework should seek to 
translate the long-term Geoinformation Utility development 
objectives into strategic specific courses of action in which 
each step provides a tangible results that are relevant to the 
needs and of a high priority. However, each step will also be 
subject to the general policy direction that is required to 
control the overall development process [S. Juma, 1994: A. 
Bassolé, 1995]. 
The planning framework should define organizational 
activities within the first stage of developing the 
geoinformation infrastructure. It should set up the policy 
framework and institutionalises the executive planning and 
control. It further should spell out what activities should be 
performed and what should be achieved in this specific 
period of time. It should finally serve as a framework for the 
preparation of detailed operational planning, execution and 
control of the tasks to be carried out. The policy framework 
should cover specific issues concerning the various types 
of data to be collected, data communication and quality 
standards, marketing, pricing and sales of products, and fee 
  
Policies 
  
Standards 
  
  
Access/Use 
Education 
GES1 * Legislation 
Standard * Integrity 
Format 
  
  
  
  
  
  
  
  
» GCS (general model) 
* Information Directory 
(Meta Data) 
* Update Control 
* Data Communication 
  
  
  
  
DATA COMMUNICATION NETWORK 
  
  
  
  
  
DB - Organisation's Database 
LES- Local External Schema 
SC -Sharable Components 
GES- Global External Schema 
GCS- Global Conceptual Schema 
  
    
      
  
structure, data access, use and distribution. Other policy 
matters include, data ownership, data integrity, security and 
control. 
A National Advisory Board is proposed to direct and control 
the development process. Under this top level Committee 
are the various task forces responsible for dealing with each 
individual subject or groups thereof expressed in the policy 
framework. These are Task Forces on standards, access 
and use policy, organisation structure and changes, 
marketing, costs and revenue structure, and on system 
integrity. 
5.2 Technical framework 
5.2.1 A model for a Geoinformation Utility in a federated 
perspective 
The coordinated sharing and interchange of computerized 
information can be controlled among autonomous 
databases by a Federated Database System (FDBS) which 
is a collection of independent and possibly heterogeneous 
database systems united into a loosely coupled federation, 
in order to share and exchange information. The basic 
elements of the federated architecture are individual 
components (geoinformation systems) that wish to share 
and exchange information. A component may be viewed as 
an autonomous database. The components must maintain 
as much autonomy as possible; however, the components 
must be able to achieve a reasonable degree of information 
sharing. The model illustrated in Fig.3 is in principle 
technology-independent. Each participants database 
contains a specific land-related information plus other types 
of information, useful for their specific applications; also 
each database contains a land-related information which is 
of interest for other participants and in some cases this 
information is vital for their decision making process. 
Furthermore, some applications on national level (global 
applications) require integrated information from the 
participating (different) databases [A. Al-Ansari, 1994], [M. 
Radwan, Y. Bishr, 1995], [Y. Bishr, 1996]. 
     
DATA COMMUNICATION NETWORK 
Figure 3: A proposal for a model of Information Utility 
637 
International Archives of Photogrammetry and Remote Sensing. Vol. XXXI, Part B4. Vienna 1996