In: Wagner W„ Székely, В. (eds.): ISPRS ТС VII Symposium - 100 Years ISPRS, Vienna, Austria, July 5-7, 2010, IAPRS, Vol. XXXVIII, Part 7B
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4. CONCLUSION
Due to the fact that if an intrusive process over the ROW
causes unfortunate defects, the company mission will be under
threat of inconsistency operation and the oil transportation
through pipeline will stop. An occurrence into pipeline also
expense company too costly for the value of rehabilitation to
fix damaged parts, soil remediation and keeping a safe and
clean corridor from splash with oil.
From the general point of view, physical protection plays a
significant role in order to having reliable operation and makes
it safer. Apparently, traditional methods of monitoring program
are less successful with continuous gathering data process from
pipeline corridor. Consequently, it gives company low rank in
quality services. For these reason, the overall performance of
existing techniques are not acceptable.
From technical point of view, a decision to choose appropriate
technique has been argued based on Time to Response an
Intrusion, Period and Recurrent Period and Cost to Process
including access time to the area of operation (site) in order to
prevent damage from occurring, standard and a perilous of
petroleum transportation, the pipeline network topology,
investment and existing technologies such as SCADA, optical
fibre and so on. With the reference to former reason, type C as
a Ground Based Remote Sensing method (GBRS) has been
proposed. Regarding to the cost of operation, proposed
technique might be able to recognize high risk activities as well
as disaster over pipeline corridor. The next obvious benefit is
stopping to spend a lot for the neighbouring corridor in order to
fix pollution and pay the penalties. For this reason, the cost of
the injured parties adjacent to the pipeline corridor, by using
GBRS will reduce. All in all the following result from this
proposal is expecting if it turns to a practical profile through the
ROW. Spatial Data Infrastructure (SDI) plays role as a service
provider for LBS but in this concept it is Vice versa, and SDI
will be getting up-to-date from Corridor Based Data.
All intrusion over pipeline corridor would be detected
according to GBRS technology and its principle. Outcome of
GBRS as a high spatiotemporal information can be placed in
GIS layers for Geo- Corridor Based Map. So implications of
the context will give consumers and users the advantages of
Geo-ICT.
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ACKNOWLEDGEMENT
The authors would like to thank Prof Mag. Dr.Georg Gartner*
for the valuable comments. Additionally, the authors would
like to appreciate the painstaking editing task done by
Bas Retsios * and Babak Etemadi .
Univ.Prof.Mag.Dr.Georg Gartner, Cartography and Geo-
Mediatechniques Department of Geoinformation and
Cartography, Vienna University of Technology , Erzherzog-
Johannplatz 1, A-1040 Vienna, Austria, email:
georg.gartner@tuwien.ac.at Tel (+43)58801 12611,
URL; http://cartography.tuwien.ac.at
Ir. V. (Bas) Retsios, Software developer from department of
Geo-information processing in ITC - Geo-International
Institute for Geo-Information Science and Earth Observation-
the Netherlands , Enschede, email: retsios@itc.nl
ILI Senior lecturer Mr. Babak Etemadi, Electronic
engineering, babak_etemadi35@yahoo.com
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