A DGPS integrity monitoring algorithm to detect the satellite clock failure

This paper deals with an integrity monitoring to prevent the maritime DGPS malfunction by an anomaly such as satellite clock failure. Firstly this paper carries out a study to analyze the pseudorange error on PRN23 and the impact on DGPS reference station at that time in order to reproduce the anoma...

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Hauptverfasser:	Sang Hyun Park, Ki Yeol Seo, Deuk Jae Cho
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Clocks Condition monitoring Error analysis Error correction Global Positioning System integrity monitoring maritime differential GPS Partial response channels Performance analysis Research and development Satellite broadcasting satellite clock failure Satellite navigation systems
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creator	Sang Hyun Park Ki Yeol Seo Deuk Jae Cho
description	This paper deals with an integrity monitoring to prevent the maritime DGPS malfunction by an anomaly such as satellite clock failure. Firstly this paper carries out a study to analyze the pseudorange error on PRN23 and the impact on DGPS reference station at that time in order to reproduce the anomaly of GPS satellite clock. And this paper makes a close investigation into the process of maritime DGPS malfunction under the reproduced anomaly circumstances. It is shown that the cause of maritime DGPS malfunction is the impact on the pseudorange correction values of the healthy satellites by PRN23 anomaly raised in process of computing the pseudorange corrections. And a DGPS integrity monitoring algorithm is proposed in order to make up the maritime DGPS malfunction by an anomaly such as satellite clock failure. Finally, this paper shows the validity of the analysis results on the maritime DGPS malfunction and the performance of the proposed algorithm.
doi_str_mv	10.1109/PLANS.2010.5507291
format	Conference Proceeding
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Firstly this paper carries out a study to analyze the pseudorange error on PRN23 and the impact on DGPS reference station at that time in order to reproduce the anomaly of GPS satellite clock. And this paper makes a close investigation into the process of maritime DGPS malfunction under the reproduced anomaly circumstances. It is shown that the cause of maritime DGPS malfunction is the impact on the pseudorange correction values of the healthy satellites by PRN23 anomaly raised in process of computing the pseudorange corrections. And a DGPS integrity monitoring algorithm is proposed in order to make up the maritime DGPS malfunction by an anomaly such as satellite clock failure. Finally, this paper shows the validity of the analysis results on the maritime DGPS malfunction and the performance of the proposed algorithm.</abstract><pub>IEEE</pub><doi>10.1109/PLANS.2010.5507291</doi><tpages>5</tpages></addata></record>
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subjects	Clocks Condition monitoring Error analysis Error correction Global Positioning System integrity monitoring maritime differential GPS Partial response channels Performance analysis Research and development Satellite broadcasting satellite clock failure Satellite navigation systems
title	A DGPS integrity monitoring algorithm to detect the satellite clock failure
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