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International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B7. Istanbul 2004 
based and GIS integrated system as a public service tool will be 
a great step to enhance agriculture modernization in China. 
We will use GIS as a basic tool to store, extract and display 
spatial data, while domain models and special knowledge are 
integrated and collaborated to give a concrete decision result in 
agriculture field management. Our objective is to address the 
problem of field variability with location and plant variation to 
give strategies of water and fertilizer application aiming to 
enhance production or reduce invests input in agriculture. The 
approach we developed for this purpose involves acquiring 
sufficient expert knowledge, building models and designing 
casy-to-understand result presentation to support farmers with 
executable field management decision. GIS and Knowledge- 
based decision support system, GZAgri-GIS is such an 
information system that has been used in practice in Guangzhou, 
China, aiding farm-level agriculture decision-making. We 
integrate decision knowledge, decision models and GIS basic 
functions in the system design and implementation. Since the 
system intends to server the public, the framework of 
Browser/Server is adopted. 
2. BACKGROUND 
2.1 Overview of SDSS 
Expert system or ES is a computer program that reasons with 
the knowledge of a specialist subject with a view to solving 
problems or giving advice. Such a system may completely 
fulfill a function that normally requires human expertise, or it 
may play the role of an assistant to a human decision-maker. As 
some functions can be performed by domain models, models 
are then be used together with expert knowledge to get a more 
secure result. This expert system with model component is the 
preexistence of DSS, with high capability in numerical 
calculation. DSS were first introduced in business management, 
commercial investment and activities as strategic planning, 
scheduling of business operations, and investment appraisals. 
The first DSS applications began to appear in the early 1970s. 
Since the early 1980s, DSS developed much under influence of 
the PC revolution, the increasing performance price ratio of 
hardware and software. Although there is not a generally agreed 
upon definition, the term DSS commonly refers to "computer- 
based systems which help decision makers utilize data and 
models to solve ill-structured problems". In recent years, spatial 
problems such as site location selection, shortest route selection, 
and resource distribution plan are easy to see in our life. The 
definition of SDSS can take many forms. But it is generally 
agreed that SDSS is evolved from DSS and defined as a DSS 
which combines geographic information with appropriate 
algorithms and extend these capabilities to provide a rational 
and objective approach to spatial decision analysis, a more 
vivid graph expression than DSS, and thus enable the user to 
assess the implications of the trade-offs between alternatives 
clearly. Its primary functions are to (a) provide the mechanisms 
for interactive input and manipulation of large volumes of 
spatial data; (b) allow representation of the complex spatial 
relationships and structures that are common in spatial data, 
including analytical techniques that are unique to both spatial 
analysis and modeling; (c) provide output in a variety of spatial 
forms; and (d) facilitate decision-making and improve the 
effectiveness of the decision made (Turban, 1988). SDSS are 
explicitly designed to provide the user with an interactive 
decision-making environment that enables geographic data 
analysis and spatial modeling to be performed in an efficient 
and flexible manner. Basic component of SDSS include control 
187 
unit, database (management), model base (management), 
knowledgebase (management) and user interface, with spatial 
database different from common database in DSS (Fig. 1). 
Until now many a SDSS have been developed and applied in 
different areas by various researchers. Arentze and 
Timmermans (2000) described the architecture of a spatial 
decision support system and an illustrative application, to 
generate retail plan and assess its impact. Mchiael (2001) 
presented a GIS-based decision support system prototype 
intended for use by public housing authority administrators and 
planners designing policy for housing mobility programs. Vacik 
and Lexer (2001) researched the development and application 
of a spatial decision support system (SDSS) for silvicultural 
planning in forests managed for sustained yield of water 
resources. Keenan (1998) developed SDSS to server vehicle 
routing. Zergera and Smith (2003) emphasis the importance of 
knowledge in using GIS for real-time disaster decision support. 
In all those cases, the component of database and model base is 
a prerequisite, while knowledgebase is optional since 
knowledge places the base for intelligent decision-making that 
may not required. 
  
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Use interface 
  
  
Fig. 1 Basic structure of SDSS 
2.2 GIS and GIS Use in Agriculture 
The GIS technology has come a long way in the past decade 
and continues to evolve, with the basic function as spatial data 
management. New application areas have been found, including 
agriculture, forestry, hydrology, resource management, and 
coastal resource management. Those areas benefit a lot from the 
development of GIS. In addition, new products have appeared 
in the marketplace. What more, dramatic improvements 
continue in the capability of hardware and software operating 
platforms; and large volumes of data sets have become 
available. GIS technology has grown rapidly to become a 
valuable tool in the analysis and management of spatial 
ecological problems. 
It is not new for GIS to be used in Agriculture. Since the 
Canada Geographic Information System or CGIS, generally 
acknowledged as the first GIS system (Peuquet, 1977), GIS has 
been applied in resource planners and decision-makers with a 
set of tools to analyze spatial data effectively. Agricultural 
resource plan, agricultural land assessment, etc.. are also among 
the areas that GIS can provides. These areas can be classified as 
macro application since large area is usually covered. A more