“An exploratory investigation towards a real-time and near real-time crustal movement determination over medium baselines”,
Civil Engineering Research Magazine (CERM), Faculty of Engineering, Al-Azhar University, • 2005
معلومات البحث
المؤلفون
M. Rabah and G. S. El-Fiky (2005)
الكلمات المفتاحية
Not Available
المجلة العلمية
Civil Engineering Research Magazine (CERM), Faculty of Engineering, Al-Azhar University,
الناشر
Not Available
المجلد
V. 27, No. 1,
العدد
Not Available
الصفحات
pp. 95-111.
publication.type
International
رابط البحث
Not Available
المواد المرفقة
Not Available
الملخص
Monitoring of crustal deformation in real-time or near real-time means that the
system must be capable to determine the possible variation in position within a
minimum of time delay and guarantee alarm if specified limits are exceeded. With the
GPS techniques, it is nowadays possible to install permanent deformation monitoring
systems, which are working automatically. To cover the requirements of these systems, data flow and processing must be carried out online and the results have to be available
in real-time, so that an overall deformation monitoring of the object is feasible.
The GPS “Real Time Kinematic” (RTK) method, with fixing ambiguities “On The
Fly”, stands for a very accurate and reliable technique that can fulfil the needs of the
real-time accurate processing. In this paper, emphasis is taken on the algorithms that can
be applied in the GPS permanent deformation monitoring system. A new algorithm for
fixing the double difference phase ambiguities is introduced. The real-time and near
real-time capability of this algorithm for monitoring the deformation of permanent
stations, that are separated over lengths ranged between 30 to 120 km, is tested
system must be capable to determine the possible variation in position within a
minimum of time delay and guarantee alarm if specified limits are exceeded. With the
GPS techniques, it is nowadays possible to install permanent deformation monitoring
systems, which are working automatically. To cover the requirements of these systems, data flow and processing must be carried out online and the results have to be available
in real-time, so that an overall deformation monitoring of the object is feasible.
The GPS “Real Time Kinematic” (RTK) method, with fixing ambiguities “On The
Fly”, stands for a very accurate and reliable technique that can fulfil the needs of the
real-time accurate processing. In this paper, emphasis is taken on the algorithms that can
be applied in the GPS permanent deformation monitoring system. A new algorithm for
fixing the double difference phase ambiguities is introduced. The real-time and near
real-time capability of this algorithm for monitoring the deformation of permanent
stations, that are separated over lengths ranged between 30 to 120 km, is tested
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