ground track. This unique side-looking capacity of SPOT is 
important for monitoring applications requiring high frequency 
of coverage, such as natural disasters. Furthermore, it enables 
production of SPOT stereo-images, by recording the same 
ground scene from two different satellite locations. They are 
increasingly used for production of digital elevation models 
(DEM) and for 3-dimensional viewing of the object scene. 
SPOT 4 is scheduled for launch in 1997 (Section 3.4). 
2.5 Other Ongoing Satellite Programs 
Significant civilian EO satellite programs are operated by the 
space agencies of India, Japan and Russia, as well as by the 
European Space Agency (ESA). However, RS data from these 
programs are not as widely available for operational 
applications at regional and global levels as the data from the 
programs described above. This is partially due to the 
experimental nature of some of these programs, difficult 
access to their data and gaps in their global coverage because 
of an incomplete network of ground receiving stations and lack 
of onboard data recorders. This situation is quickly changing, 
helped by international agreements for data reception, 
marketing and distribution. It is expected that the future 
contributions by some of these programs to regional and global 
mapping and monitoring activities will grow significantly. 
2.6 Global Positioning Systems 
The potential of satellite remote sensing for mapping and 
monitoring at regional and global levels has been further 
enhanced by the growing operational use of the space-based 
Global Positioning System (GPS). Developed by the United 
States for military applications in the mid-1970s, a 
constellation of 21 geostationary GPS satellites, with 3 spares 
in orbit, enables near instantaneous determination of positions 
anywhere on the earth's surface. GPS continuity is assured 
because the first satellites of the next-generation GPS are 
ready for launch. Russia is deploying a similar satellite 
positioning system called the Global Navigation Satellite 
System (GLONASS). 
Portable and relatively inexpensive GPS receivers are 
increasingly used for quick completion of mapping control, 
preparation of base maps, and for the precise geometric 
rectification and positioning of image data recorded by 
satellites. (Clavet et al, 1993). This is of particular 
importance in developing countries where the existing 
mapping control is often incomplete or unreliable. Hence, the 
GPS have become essential and effective tools for verification 
and, when necessary, completion of existing mapping control. 
Their use will assure that the compilation of base maps is 
done with uniform geometric accuracy for the whole region. 
2.7 Geographic Information Systems 
Other important developments, effecting the implementation 
of large mapping and monitoring programs, have been the 
expanding capacity and user-friendliness of Geographic 
Information Systems (GIS), accompanied by their decreasing 
price. EO satellites provide a source of RS data, while GIS 
provide the capacity for integration of geo-referenced data 
from different sources, their joint analysis and generation of 
cartographic, statistical and modeling products from integrated 
and harmonized databases. 
Integration of remote sensing data with other relevant 
geographically referenced data, such as topographic, soils, 
climatic, demographic, etc. in GIS, increases the quantity as 
well as the quality of the derived information. Some GIS 
software packages also provide a mathematical modeling 
capacity for the analysis of trends, environmental impact 
assessment, agricultural drought forecasting, etc. Thus, GIS 
facilitate the transformation of geospatial data into 
information, knowledge, and, ultimately, decisions. However, 
it should be remembered that the usefulness and impact of GIS 
depend on the quality of the input data. Even the most 
sophisticated GIS are useless if no reliable input data are 
available. Furthermore, there is a need for the development of 
innovative procedures for interpretation and analysis of 
integrated multi-source RS data, in particular for combined 
analysis of optical and SAR RS data, resulting in their more 
effective and efficient applications. 
2.8 RS Data Archives and Information Networks 
Effective dissemination of information on RS data, and user- 
friendly access to data archives worldwide have become 
priority requirements by decision-makers responsible for land 
cover mapping, natural resources assessment and 
environmental monitoring programs. The impact of these 
programs, and thus their success, will depend on the extent to 
which their products will be used. In order to speed up and 
facilitate this process, the following approach should be 
followed: 
(a) establishing user-friendly data archives and effective 
information networks; 
(b) establishing a clear copyright policy; 
(c) establishing a reasonable pricing structure; 
(b) training of prospective users of new products. 
The number of countries which have established information 
networks for RS data and derived products is steadily 
increasing. Furthermore, those networks are being linked to 
provide access to foreign data archives. Examples of such 
state-of-the art RS information networks were selected from 
Canada and the United States. 
Since 1990, the Canada Centre for Remote Sensing (CCRS) 
has been operating a dedicated RS information network, the 
GCNet. It serves as one-stop-shop for information on RS data, 
products, services and publications. It also provides a link to 
the International Directory Network (IDN) operated by the 
Committee on Earth Observation Satellites (CEOS). The IDN 
is a global network with three regional coordinating nodes 
located at NASA (USA), ESA-ESRIN (Italy) and NASDA 
(Japan). Since 1995, the GCNet has been accessible on World 
Wide Web. The capacity of GCNet will be significantly 
upgraded and broadened when its follow-on system, the 
Canadian Earth Observation Network (CEONet) becomes 
operational in 1998. It will provide a state-of-the art, fast 
interface between the geospatial data archives and their users 
in Canada and abroad. (Cihlar et al., 1994; Fisher et al., 1995; 
Kalensky, 1996). 
One of the most important components of the Earth Observing 
System (EOS), planned by the United States National 
Aeronautics and Space Administration (NASA), will be the 
EOS Data and Information System (EOSDIS). The EOSDIS 
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International Archives of Photogrammetry and Remote Sensing. Vol. XXXI, Part B4. Vienna 1996 
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