ISPRS, Vol.34, Part 2W2, "Dynamic and Multi-Dimensional GIS”, Bangkok, May 23-25, 2001
98
ENHANCE MANAGEMENT LEVEL OF URBAN WATER SUPPLY DEPARTMENT WITH 3S TECHNOLOGY
Yewen FAN 1 and Wei WANG
1 .Information Engineering Center, Wuhan University, Wuhan, China, 430079.
Te!:+86-27-87643969, +86-27-87665485. fyw@geostar.wtusm.edu.cn
2.LIESMARS, Wuhan University, Wuhan, China, 430079.
Tei:+86-27-87643969,+86-27-87665485. wangwei@rcgis.wtusm.edu.cn
KEY WORDS: GPS, RS, GIS, routine surveying technology, carrier phase differential
ABSTRACT:
The Urban Water Supply Company mainly deals with the underground duct system. However, due to various kinds of reasons, the
underground duct systems of each Urban Water Supply Company are of bad actualization and low precision. They can hardly give
optimal play in practice. Therefore, it is essential to increase the actualization and precision of the underground duct system as well as
the management level of the Urban Water Supply Company. When GPS is carrying out false-distance differential, adding the corrected
value of carrier phase differential will increase the real-time positioning precision to the level of CM. Combining the RS technology at the
same time, it is able to obtain the 3-D coordinate of the underground duct system accurately. Applying GIS technology in the water
supply industry, the application analysis function of the industry will be enhanced so as to manage the urban lifeline - underground duct
system information scientifically.
1. INTRODUCTION:
At present, Geographic Information System (GIS) has been
widely used in the field as land management, city planning and
mine prospecting. Its application in data management, data
development, spatial query and spatial analysis has been
recognized by more and more people and acquired attention by
more and more departmental leaders. Though GIS is just a
fundamental platform of fundamental geographical data
management, leaders and technicians are exploring and
studying on how to combine GIS with each industry application
so that GIS can become an information system for a profession
and serve for the profession more effectively.
Global Positioning System (GPS) is established by the US
Department of Defense aiming at contenting the demand for
carrying out maritime, terrestrial and air navigation and
positioning with high precision by the military department. By
adopting GPS technology, there is no need for the mutual
vision among stations. It is able to carry out high-precision
positioning round-the-clock with convenience and high
efficiency. With the rapid development of GPS technology, GPS
precision positioning technology is becoming mature and has
been widely used in the field as economic construction and
scientific technologies.
Remote Sensing (RS) is a high and new-technology industry
studying on how to obtain relevant attribute of the objects
without direct contact. By sending and receiving
electromagnetic wave reflected by the objects or receiving
electromagnetic wave sending or reflecting by the objects, RS
technology studies on much attribute information as existent
state, texture and characteristics of features as land satellite,
meteorological satellite, aerial photography, radar and survey
meter so as to identify them and reach the goal of cognition.
3S technology is the integration of GIS, GPS and RS. As GIS,
GPS and RS have their own characteristics respectively, it is
difficult to meet the demands or solve problems in practice by
using only one or two of the three technologies. Commonly, to
integrate the advantages and characteristics of the three
technologies is the key to solve the practical problems. Duct
system is an essential infrastructure of the city construction as
well as the blood and lifeline of a city. It spreads over every
corner of a city and forms an underground network in a
crisscross fashion. However, in China, the duct system of most
cities has a long history. They are of various types and a great
amount. Over a long period of time, due to many reasons, the
duct system is in serious lack of fundamental materials. The
pipeline materials as valves are of bad actualization. The
blueprint and practical situation are unmatched as well as the
positioning error is big, which brings great difficulties to the duct
