共查询到19条相似文献,搜索用时 171 毫秒
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<正>卫星通信技术在20世纪90年代初被应用于海洋渔业船舶定位导航,在此之前,渔业船舶配备的航行定位设备定位速度慢且定位误差较大。全球卫星定位导航仪(GPS)应用到渔业船舶上后,系统能够自动定位导航,功能齐全,在导航时不但能显示航点、航线、到达距离和到达时间,还具有偏航报警、到达报警等多种功能。GPS定位导航数据精 相似文献
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以2011年日本Mw9.0级特大地震为例,对国家海洋局沿海GPS业务观测系统在海底地震监测中的应用进行了研究。采用自行研制的精密单点定位(Precise Point Positioning,PPP)软件,基于静态和动态模式,先提取GPS站点的瞬时地表同震位移和震后形变,再反演得到了震源方位、站点上空大气水汽的动态变化等信息。研究分析日本强震对沿海GPS站址的影响以及该系统对日本强震响应的灵敏性,揭示沿海GPS观测系统在海底地震监测及海啸预警中的作用,据此拓展了该系统的应用,为沿海GPS业务观测系统的运行、维护和业务拓展提供了科学依据。 相似文献
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Y. Gao 《Marine Geodesy》2013,36(4):279-288
Global positioning system (GPS) has found applications in various areas including marine geodesy. GPS positioning accuracy, however, is greatly degraded by GPS ephemeris and clock errors, particularly errors due to Selective Availability (SA). Thus, it is crucial to use precise ephemeris and clock corrections for users who require high position accuracy. Presently, precise ephemeris and clock corrections are available only in post‐mission. This paper investigates the generation of precise real‐time ephemeris and clock corrections and the positioning accuracy using them. In this research, precise real‐time ephemeris is generated from accurate dynamic orbit prediction and clock corrections are calculated using instantaneous GPS measurements. Numerical analysis using data from an actual GPS tracking network is performed that indicates use of precise ephemeris and clock corrections can improve the positioning accuracy to the one meter level. This accuracy is attainable in real‐time as the precise real‐time ephemeris and clock corrections become available in the future. 相似文献
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随着GPS技术的发展,具有RTK功能的GPS接收机不但在平面位置上可以达到厘束级,而且以WGS84为参考椭球的垂直高程也可以达到厘束级,因而被广泛地应用于海岸带测量中。本文介绍了RTKGPS在海域勘界、无验潮模式水深测量方面的一些具体应用。 相似文献
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The accuracy of GPS/Acoustic positioning is crucial for monitoring seafloor crustal deformation. However, the slant range residual is currently the only indicator used to evaluate the precision of positioning seafloor transponders. This study employs a unique Seafloor Acoustic Transponder System (SATS) to evaluate the accuracy of GPS/Acoustic seafloor positioning. The SATS has three transponders and an attitude sensor in a single unit, which provides true lengths of transponder baselines and true attitude of the SATS to ensure assessment reliability and validity. The proposed approach was tested through a GPS/Acoustic experiment, in which an off-the-shelf acoustic system was used to collect range measurements. Using GPS/Acoustic geodetic observations, the positions of three transponders on the SATS were estimated by an optimization technique combined with ray-tracing calculations. The accuracy of the GPS/Acoustic seafloor positioning is assessed by comparing the true baselines and attitude with the results derived from the position estimates of the three transponders. A sensitivity analysis is conducted to investigate the robustness of the GPS/Acoustic positioning results to changes of sound speed. Experimental results demonstrate that the use of the SATS can help to assess the validity of the GPS and acoustic travel time measurements in the GPS/Acoustic seafloor positioning. 相似文献
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基于ROV的近海底地形测量及其在马努斯盆地热液区的应用 总被引:3,自引:0,他引:3
针对重点的特殊深海研究区(如热液冷泉、洋中脊区域),在船载多波束数据获得研究区大面积地形资料的基础上,有必要选取典型深海小靶区进行高分辨率地形测量为进一步深入研究提供保障。根据船载多波束实测数据选取PACMANUS热液区作为靶区,基于长基线定位,利用“发现”ROV搭载多波束系统进行近海底全覆盖地形测量。结果表明,依托于船动力定位系统及差分GPS,长基线为ROV提供了可靠的高精度定位,使得近海底测量的地形数据分辨率数倍优于船载多波束测得的地形数据的分辨率。高分辨率地形清晰的显示了PACMANUS热液区锥形丘体等特殊微地形,与已发现的热液点和火山区有很好的对应。进一步分析发现,该区域活动的热液区主要发育于坡度大于30°斜坡上的地形突变区,其成因仍需深入研究。利用ROV搭载多波束近底测量是获取深海小靶区高分辨率地形的可靠途径和方法,有利于提高深海海底研究的针对性,将促进我国深海科学研究的发展。 相似文献
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Abstract The combined use of Global Positioning System (GPS) differential positioning as well as ERS‐1 altimeter data is considered in implementing geodetic vertical datums and their unification. The article describes concepts, techniques, practical realization, and associated questions and problems. Particular aspects in view of small sea surface perturbations in offshore areas in determining sea surface components (variable and steady state) are discussed. The combinations of tide gauge data with altimetry and (mainly) GPS positioning for geodetic purposes are discussed in detail. Special attention is devoted to the associated reference systems as well as to the combination of dynamic (level and nonlevel surfaces) with geometric quantities. The discussion is based on a specific ERS‐1 project supported by the National Science Foundation. Implications and practical impact of the project are outlined. 相似文献
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2011年3月11日日本宫城县以东太平洋海域发生Mw9.0级特大地震,造成了地表的严重错位并引发海啸。文中利用位于日本及周边国家的IGS站和国家海洋局GPS业务站观测数据,采用作者研制的精密单点定位(PPP)软件UniP,对此次地震的GPS数据响应进行了研究。结果表明:(1)GPS观测数据能清晰、连续地记录震时地表形变的过程,我国CHAN,NCST等站点水平方向的震时最大位移在10 cm以内,高程方向的震时最大位移在15 cm以内,且形变以可恢复性的弹性形变为主。(2)我国距震中较远,受此次日本地震的影响较小,且大部分站点是在东坐标方向出现不同程度的震后永久性位移。其中CHAN站点的震后位移最为明显,东向形变量为(1.8±0.11)cm;NCST、NLHT站点次之,东向形变量分别为(1.1±0.26)cm和(1.0±0.18)cm。(3)地震波传输到国家海洋局GPS业务站NCST、NLHT等的时间约为10 min,比海啸在深海的传播速度快约14倍,可为海啸预警提供所需的时间差。这些结果显示出GPS能够为地震监测和动力学特征研究提供有价值的基础资料,也表明中国沿海GPS业务观测系统在海底地震监测、海啸预警服务中的应用潜力。 相似文献