Full text: Proceedings, XXth congress (Part 7)

2004 
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International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B7. Istanbul 2004 
  
irregular in shape, and  scatted in distribution. The 
overpopulation makes this even worse since a large farm field 
usually has to be divided into bits and pieces to meet all farmers 
need for sharing. This is particularly true in China and many 
overpopulated countries. The mode of digital agriculture that a 
large land evenly partitioned into regular grid is inapplicable in 
those regions. Moreover models are the main component that 
calculates fertilizer, water and pesticide application for different 
grids while expert knowledge is usually fixed in models. 
Knowledge lacks flexibility in maintenance. This also limits the 
extension of GIS use. The approach discussed here for using 
farm fields (grids) variability information and expert knowledge 
for enhancement of yields and reduction of risk in farm field 
management should be applicable over much of those regions. 
To offer an application system accessible to location-distributed 
users, a web-based spatial decision system with the integration 
of GIS and expert knowledge, GZ-AgriGIS is developed. 
Expert knowledge associated with different crops obtained from 
human expert and analysis models can lead to appropriate field 
management to any farm field no matter where the field locates. 
The novelty of GZ-AgriGIS is its integrated knowledge base, 
which contains information on most of agronomic knowledge. 
With the system run, it is possible to tap the complex spatial 
decision-making and gain an insight into the variety of options 
of management practices available to each piece of farm fields. 
It fits with uneven area thus it has more flexibility in practice, 
esp. in mountainous regions with scattered, small area and 
irregular farm fields. 
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Acknowledgements 
This research was partially supported by Guangzhou municipal 
government. 
  
 
	        
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