Madhu Krishna Karthan, D. Kuna, Perumalla Naveen Kumar
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For this analysis, three cases are considered, Case I is when all (six) NavIC satellites are visible, Case II is when five satellites (3 Geosynchronous Orbit (GSO) and 2 Geostationary Earth Orbit (GEO)) are visible, and Case III is when five satellites (3 GEO and 2 GSO) are visible. The comparative analysis for these three cases is carried out with respect to the position accuracy parameters and Geometric Dilution of Precision. It is observed that, with the satellite availability in case I and case III, the user receiver accuracy is approximately the same. In case III, the accuracy of the user receiver (3.08 m) is similar to the accuracy (3.09 m) in case I. For time delay in transmission of corrections, different time delays (0, 5, 10, 20, …, 300 s) are considered to observe the effect on the positional accuracy of the user receiver. Due to the increase in this time delay, there is a significant degradation in the user receiver position accuracy of differential NavIC.","PeriodicalId":44569,"journal":{"name":"Journal of Geodetic Science","volume":null,"pages":null},"PeriodicalIF":0.9000,"publicationDate":"2024-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Effect of satellite availability and time delay of corrections on position accuracy of differential NavIC\",\"authors\":\"Madhu Krishna Karthan, D. Kuna, Perumalla Naveen Kumar\",\"doi\":\"10.1515/jogs-2022-0169\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"\\n The position accuracy of standalone Navigation with Indian Constellation (NavIC) may not be met for certain applications like civil aviation. To improve the position accuracy of the user receiver, the technique used is Differential NavIC, which makes use of Differential corrections. 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In case III, the accuracy of the user receiver (3.08 m) is similar to the accuracy (3.09 m) in case I. For time delay in transmission of corrections, different time delays (0, 5, 10, 20, …, 300 s) are considered to observe the effect on the positional accuracy of the user receiver. 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引用次数: 0
摘要
独立的印度星座导航(NavIC)的定位精度可能无法满足民航等某些应用的要求。为了提高用户接收机的定位精度,采用了差分导航卫星通信技术,即利用差分校正。用户接收器的位置精度还取决于卫星的可用性(即在某一时刻可用来估计用户位置的卫星数量)和差分修正的传输延迟。本文分析了使用不同数量的可见卫星(卫星可用性)和不同时间延迟传输校正的差分 NavIC。为进行分析,考虑了三种情况,情况 I 是所有(六颗)导航卫星都可见,情况 II 是五颗卫星(三颗地球同步轨道卫星和两颗地球静止轨道卫星)可见,情况 III 是五颗卫星(三颗地球静止轨道卫星和两颗地球同步轨道卫星)可见。对这三种情况的位置精度参数和几何精度稀释进行了比较分析。据观察,在情况 I 和情况 III 中,随着卫星的可用性,用户接收器的精度大致相同。在情况 III 中,用户接收器的精度(3.08 米)与情况 I 中的精度(3.09 米)相近。对于修正数据传输的时间延迟,考虑了不同的时间延迟(0、5、10、20......300 秒),以观察对用户接收器定位精度的影响。由于时间延迟的增加,差分 NavIC 用户接收机的定位精度显著下降。
Effect of satellite availability and time delay of corrections on position accuracy of differential NavIC
The position accuracy of standalone Navigation with Indian Constellation (NavIC) may not be met for certain applications like civil aviation. To improve the position accuracy of the user receiver, the technique used is Differential NavIC, which makes use of Differential corrections. The position accuracy of the user receiver also depends on the satellite availability (i.e. number of satellites available at a certain time instant to estimate the user position) and delay in transmission of differential corrections. In this article, the analysis of differential NavIC using different numbers of visible satellites (satellite availability) and different time delays for transmission of corrections is carried out. For this analysis, three cases are considered, Case I is when all (six) NavIC satellites are visible, Case II is when five satellites (3 Geosynchronous Orbit (GSO) and 2 Geostationary Earth Orbit (GEO)) are visible, and Case III is when five satellites (3 GEO and 2 GSO) are visible. The comparative analysis for these three cases is carried out with respect to the position accuracy parameters and Geometric Dilution of Precision. It is observed that, with the satellite availability in case I and case III, the user receiver accuracy is approximately the same. In case III, the accuracy of the user receiver (3.08 m) is similar to the accuracy (3.09 m) in case I. For time delay in transmission of corrections, different time delays (0, 5, 10, 20, …, 300 s) are considered to observe the effect on the positional accuracy of the user receiver. Due to the increase in this time delay, there is a significant degradation in the user receiver position accuracy of differential NavIC.