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International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B4. Istanbul 2004 
  
and atrocious weather. In the area where the wired is untouched, 
for example, in a hard, badly, dangerous environment, the 
WGIS could still work well. 
(2) Wireless applicability. Being compared to the wired 
network, the wireless network has a more comprehensive 
employment and configure mode; otherwise, it isn't involved in 
the situation of stations. Thus, the use of GIS becomes more 
flexible. Wireless GIS could be realized the convenient GIS by 
clients; it is applied the traditional GIS and prevalent mobile 
GIS contemporarily. 
(3) WGIS should provide a more extensive GIS service for 
users. Location Based Service (LBS) and Mobile Based Service 
(MLS) provide a realistic model for our practical world. At 
different time and in different locations, the model dynamically 
offers distinct information service. 
(4) WGIS should improve the security for data transferring. The 
wireless GIS is utilized an electromagnetic wave transferring in 
the air, instead of cables, to dispatch spatial data. The 
frangibility of transferring medium makes the data transfer 
easily to be disturbed by the outside environment; meanwhile 
the uncertain factors of a transferring process make wireless 
data easily to be listened and captured to enough packets by 
hackers. Hence, the increase of the wireless security for data 
transfer is an important factor for our design. 
(5) Transferring velocity of WGIS is restricted by the existing 
standard. Although the wireless velocity has been made a great 
progress in 21st century, for example the new standard for 
wireless, i.e. CDMAX, IEEE802.11a and IEEES802.11g, is 
protrusive recent, the velocity of wireless couldn't be exactly 
and completely compared with the wired network. From 
considering the wired cable transferring, the gigantic GIS data 
transferring velocity is hard to satisfy the demands; therefore, 
improving GIS transferring velocity is a persistent requirement 
for WGIS. 
(6) WGIS should solve the low efficiency of the visits of spatial 
database exchange. Data organization is still the GIS bottleneck 
for accesses of users. In the wireless environment, there also 
exist the factors for confining exchange visits, for example 
restriction of data access and uncertainty of client location. 
Considering the interoperability of GIS data, it is important to 
enhance the efficiency of data transfer. 
As a consequence of the above strategies, in the wireless GIS, 
there is generally a high degree of unavailability; thus, data 
transferring is the central issue in this field. Accordingly, there 
Will be a significant contribution in the establishment of WGIS 
technologies from solving the problem of low data availability 
and veiocity depending not only on spreading software protocol 
standard, but also improving hardware technology. 
4. SPATIAL DATA STORAGE FOR MOBILE GIS 
As we all know, the character of GIS data including vector data, 
grid data and image data is gigantic and multi-resource. In 
mobile environment, for the limitation of transferring velocity, 
we should consider appropriate strategy to storage and manage 
GIS data in the wireless server. 
307 
4.1 Mobile computing 
Mobile Computing and wireless networks are fast-emerging 
technologies to make an environment conducive for ubiquitous 
computing. In this environment, mobile users equipping with 
compact battery-powered palmtops or laptops need to access 
the large volume of GIS data stored in the fixed network 
through Mobile Support Station (MSS) by the wireless 
communication. In order to realize the GIS data storage in MSS, 
adopting the mobile database technology is essential. 
   
  
  
Mobile Host 
Fig.2 The model of Mobile Environment 
Fig.2 presents the model of a mobile environment. A mobile 
environment consists of two distinct sets of entities: mobile 
hosts and fixed hosts. Some of the fixed hosts, called MSS, are 
augmented with wireless interfaces to communicate with 
mobile hosts, which are located within its radio coverage area 
called a cell. Mobile hosts are connected by wircless 
connections to the MSS of the cell where they currently exist. A 
mobile host can move within a cell or between two cells while 
retaining its network connection. Further, every host and cell in 
the system is assumed to be associated with a unique identifier. 
The mobile computing environment is a distributed computing 
platform with the following differences: the mobility and access 
devices of users, frequent disconnection, limited bandwidth and 
the mobile resource constrains - limited computational and 
power sources. 
As a part of a mobile database system, a mobile host acts as a 
data client and a data server at the same time. A mobile host, as 
a data server, is to support basic transaction operations such as 
‘read’, ‘write’, ‘commit’ and ‘abort’. WGIS should deploy 
mobile database as data management, and the use of multi-ties, 
dynamic replication technology is available. 
4.2 Three-ties replication model in mobile database 
In mobile computing environment, users can access information 
through wireless connections regardless of their "physical 
location. In mobile database systems, new features, such as 
mobility, disconnection, low bandwidth, high bandwidth 
variability, heterogeneous networks and security risks, make 
traditional database processing schemes no longer well suited. 
Replication is one of the key technologies in promoting the 
performance of mobile database systems. In. WGIS mobile 
database system, the three-tier replication architecture, which is 
shown in Fig.3, is used to solve the synchronization problem,