학술논문
차세대 RNSS 감시국을 위한 고장 검출 알고리즘 개발 방안
Development Approach of Fault Detection Algorithm for RNSS Monitoring Station
Development Approach of Fault Detection Algorithm for RNSS Monitoring Station
Document Type
Article
Author
Source
한국항행학회논문지 / The Journal of Korea Navigation Institute. Feb 28, 2024 28(1):1
Subject
Language
Korean
English
English
ISSN
1226-9026
Abstract
위치, 항법 및 시각정보 서비스를 제공하는 위성항법시스템은 위성시스템, 지상시스템, 사용자시스템으로 구성된다. 지상시스템의 구성요소인 감시국은 위성항법시스템의 서비스 제공 및 고장 검출을 위해, 위성항법 신호를 연속적으로 수집하고 위성의 SIS (signal-in-space) 고장과 수신기 및 다중반사파를 포함한 Local 고장과 같은 신호 이상을 검출하여 수신한 데이터와 검출 결과를 중앙처리국으로 전송하는 역할을 한다. 본 논문에서는 기존 위성항법시스템 감시국의 수신한 위성 신호에 대한 품질 판단 및 고장 검출을 위한 주요 모니터와 측정치 전처리 과정을 소개하고, 이를 활용하여 차세대 지역 위성항법시스템 (RNSS; regional navigation satellite system) 감시국의 구성요소와 아키텍처 및 알고리즘 개발 방안을 제시하였다.
Global navigation satellite system (GNSS) providing position, navigation and timing (PNT) services consist of satellite, ground, and user systems. Monitoring stations, a key element of the ground segment, play a crucial role in continuously collecting satellite navigation signals for service provision and fault detection. These stations detect anomalies such as threats to the signal-in-space (SIS) of satellites, receiver issues, and local threats. They deliver received data and detection results to the master station. This paper introduces the main monitoring algorithms and measurement pre-processing processes for quality assessment and fault detection of received satellite signals in current satellite navigation system monitoring stations. Furthermore, it proposes a strategy for the development of components, architecture, and algorithms for the new regional navigation satellite system (RNSS) monitoring stations.
Global navigation satellite system (GNSS) providing position, navigation and timing (PNT) services consist of satellite, ground, and user systems. Monitoring stations, a key element of the ground segment, play a crucial role in continuously collecting satellite navigation signals for service provision and fault detection. These stations detect anomalies such as threats to the signal-in-space (SIS) of satellites, receiver issues, and local threats. They deliver received data and detection results to the master station. This paper introduces the main monitoring algorithms and measurement pre-processing processes for quality assessment and fault detection of received satellite signals in current satellite navigation system monitoring stations. Furthermore, it proposes a strategy for the development of components, architecture, and algorithms for the new regional navigation satellite system (RNSS) monitoring stations.