firms now link the promise of geo-spatial information 
systems (GIS) to the markedly reduced costs of 
developing and launching satellites, resulting in very 
attractive market opportunities. Then there are the 
continual advancements in digital technology (for 
example, a 7000 by 9000 full frame CCD for sensors 
was just announced by Philips Imaging Technology) 
which allow satellite systems, which easily could have 
cost one billion US dollars ten years ago, to be built 
now for under 100 million dollars. 
In the USA, the Department of Commerce responded 
positively to industry requests to permit high 
resolution imagery to be collected and distributed 
internationally on a non-discriminatory, commercial 
basis. As a result, Earth observation satellites now 
being developed will have the capability to provide 
better than one-meter spatial resolution by the year 
1998. The developers and their partners are 
positioning themselves to serve an expected $2 billion 
annual commercial imaging market in the year 2000. 
Currently the satellite and aircraft imaging market is 
estimated to.be about $700 million. 
The foremost driver of commercial Earth imagery 
products now is the progression of "The Information 
Age." Today’s society craves information. Although 
information for traditional public products, such as 
maps, would often take seven years to produce from 
the planning stage, it is clear that in today’s society 
this delay is unacceptable. In addition, the GIS and 
the new, innovative niche markets such as "precision 
farming" are demonstrating the high value of temporal 
information for updates and forecasts. The sooner 
information is produced the more often and quicker 
consumers demand it. These insatiable spatial 
information needs, as exemplified by the myriad of 
new GPS applications, will include the imaging 
market. Properly packaged, the benefits of 
commercial digital imaging satellites can readily satisfy 
consumer demands, especially for geo-spatial 
information. It has been projected that as much as 
80% of the information used in decision-making 
processes has geo-based context. 
Given this rationale and the positive potential for 
viable commercial opportunities, several corporations 
have begun their quest to design, develop, field and 
operate high resolution Earth observation satellites 
and to form international corporate alliances and 
partnerships to establish the system infrastructures 
needed to sustain full service imaging data and 
product capabilities. 
The following sections outline a current summary of 
the technical characteristics and infrastructure 
strategies of several commercial Earth observation 
systems. 
EARTHWATCH INCORPORATED 
The merger of the commercial remote sensing 
activities of the former WorldView Imaging 
Corporation with the Ball Aerospace & Technology 
Corp. brought together two distinctively different 
technical approaches. Combined, their EarthWatch 
Inc. provides a formidable constellation of imaging 
systems to address the breadth of the applications 
market.  EarthWatch headquarters are located in 
Longmont, Colorado. It is managed by Dr. Richard 
Herring, Chief Executive Officer, a Senior Vice 
President from Ball Aerospace; Douglas B. Gerull, 
President and Chief Operating Officer, the former 
Executive Vice President and head of the Mapping 
Sciences Division of Intergraph Corporation; and Dr. 
Walter Scott, Chief Technical Officer and former SDI 
Program Manager at the Lawrence Livermore National 
Laboratories. 
The EarthWatch imaging systems, "EarlyBird" and 
"QuickBird," are designed to fulfill the imagery needs 
of the international GIS/mapping community and civil 
and military reconnaissance programs. With its 
combination of one, three, four and 15 meter 
resolutions available from two types of satellites 
orbiting in tandem, it offers the user a wide choice of 
metric and spectral options. Plans are to launch the 
three and 15 meter resolution EarlyBird in August 
1996 followed by a July 1997 launch of the one and 
four meter resolution QuickBird. Subsequent 
satellites will be launched based on market demand, 
although two of each satellite are now under 
construction. 
EarlyBird's two-dimensional CCD staring array 
cameras are unique and both its panchromatic and 
multispectral digital images will have the attributes of 
traditional film image frame cameras. That is, its 
design is to offer rigid photogrammetric geometry for 
the high metric accuracies needed by the GIS and 
mapping community. EarlyBird’s multispectral (MS) 
frames cover an area of 30 by 30 kilometers over 
which it can image simultaneously 6 by 6 km 
panchromatic (pan) scenes. The entire MS frame can 
be covered in stereo by 36 pan scenes. Using photo 
identified control, EarlyBird is capable of providing an 
RMS accuracy of six meters horizontally and four 
meters vertically for GIS/mapping projects. The range 
of the three MS wavebands of EarlyBird and the four 
MS wavebands of QuickBird are almost identical to 
SPOT bands 1-3 and Landsat bands 1-4 respectively. 
The MS and pan imagers of QuickBird share a 
common aperture. The image collection capabilities 
of EarlyBird and QuickBird in near-polar (97.3°) and 
high inclination (52°) orbits simultaneously will 
provide consumers many options as shown in figure 1. 
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International Archives of Photogrammetry and Remote Sensing. Vol. XXXI, Part B4. Vienna 1996