International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B3. Istanbul 2004 
  
replaces the traditional single-sale model of pre-paid, 
contractor-to-government custom collection efforts with 
multiple sale/shared geography commercial business-to- 
business opportunities (Tennant et al, 2003). Experience with 
Intermap’s NEXTMap Britain, NEXTMap Indonesia, as well as 
other NEXTMap missions are showing that this business model 
is a win-win situation for both Intermap and end users of 
products. 
More recently, Intermap has launched its largest ever nation- 
wide mapping effort - NEXTMap USA, *the mapping event of 
the decade." NEXTMap USA is a program to remap the entire 
continental United States in just a few years, including the 
creation of terrain elevation and imagery data accurate to 1- 
meter or better covering nearly 7.9 million square kilometers of 
the continental United States. 
8. CONCLUSIONS AND PROSPECTS 
In this article, airborne IFSAR mapping is presented to the 
readers from Intermap's operational standpoint, encompassing 
the technology, operating principles, mission implementation, 
quality management, and business model. It can be concluded 
that STAR based technology has proven to be a robust, fast, 
accurate and cost-effective technology for large area 3-D 
mapping. 
No single mapping technology can meet all application 
requirements and the paper has presented the unique advantages 
and limitation of the STAR technology. Service and data 
providers are taking various actions to mitigate the effects 
caused by the limitations in the final product. Dependent upon 
the application requirements, STAR based IFSAR mapping 
products can be either complementary or competitive to 
products generated using other mapping technologies. Under 
the well-planned mission and well-controlled production chain, 
3-D STAR products can meet pre-designed goals and are being 
used efficiently for many applications. Continuously increased 
application of STAR products is a testament to the success of 
the technology. 
Intermap is making significant contributions in transforming 
science and research efforts into practical accomplishments on 
its road to commercialization. At present, Intermap is 
developing and refining its automated facilities to further 
improve the quality and the cost-effectiveness of its products to 
meet the NEXTMap mission requirements and market 
challenges. An online data store — iStore — is under construction 
to broaden its e-commerce capability. Efforts are being made to 
extend the current infrastructure to increase throughput, on both 
data acquisition and data manipulation aspects. The company 
continues to enhance the quality control and assurance system 
with an ever-lasting objective to bring 3-D mapping products to 
the end users in a better and faster manner. 
Look into future; market confidence towards this technology 
and the various resulting data products is building in geospatial 
community. STAR technology is becoming increasingly 
important in the advancement of the overall spatial information 
industry associated with mapping, GIS and remote sensing. It is 
envisioned that with the continuous development of IFSAR and 
supporting technologies and the increased understanding of the 
application requirements, the performance of IFSAR 3-D 
mapping will be further enhanced to reach a deeper and wider 
application base. 
9. REFERENCES 
Li, X., G. Lawrence and T. Hutt, 2004. Quality control and 
assurance in an IFSAR mapping environment. In: Proceedings 
of the ASPRS 2004 Annual Conference, Denver, Colorado, 
USA, 23-28 May. 
Tennant, J. K, and T. Coyne, 1999. STAR-3i interferometric 
synthetic aperture radar (INSAR): some lessons learned on the 
road to commercialization. In: Proceedings of the 4th 
International Airborne Remote Sensing Conference and 
Exhibition/21st Canadian Symposium on Remote Sensing, 
Ottawa, Ontario, Canada, 21-24 June. 
Tennant, J. K, T. Coyne and E. DeCol, 2003. STAR-3i 
interferometric synthetic aperture radar (INSAR): more lessons 
learned on the road to commercialization. In: Proceedings of 
ASPRS/MAPPS Conference "Terrain Data: Applications and 
Visulization — Making the Connection, North Charleston, South 
Carolina, USA, 27-30 October. 
Tighe, M. L. and A. B. Baker, 2000. Topographic line map 
production using high resolution airborne interferometric SAR. 
In: Proceedings of the 19th ISPRS Congress and Exhibition, 
Amsterdam, The Netherlands, 16-22 July. 
Wang, Y., B. Mercer, V. C. Tao, J. Sharma and S. Crawford, 
2001. Automatic generation of bald earth digital elevation 
models from digital surface models created using airborne 
IFSAR. In: Proceedings of 2001 ASPRS Annual Conference, St. 
Louis, Missouri, U. S. A., April 23-27, 2001. 
    
  
    
    
   
    
     
    
   
    
  
   
    
    
     
   
    
     
    
   
   
    
   
  
  
  
  
    
   
  
   
      
    
    
   
   
  
   
   
   
  
  
  
  
  
  
    
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