Relocation of a seafloor transponder—Sustaining the GPS-Acoustic technique

K. L. Gagnon; C. D. Chadwell

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Relocation of a seafloor transponder—Sustaining the GPS-Acoustic technique

机译：重新安置海底应答器—维持GPS声学技术

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Rigid seafloor arrays of three to four precision acoustic transponders have been repeatedly positioned with the GPS-Acoustic technique to measure horizontal plate motion. In the event that one transponder becomes inactive, a replacement transponder must be precisely located relative to the existing array. Here we present a technique to determine the geodetic azimuth and baseline between the inactive and replacement transponders. We include three examples of relocations between 2002 and 2003 on the Juan de Fuca plate and near the Peru-Chile trench, which add ±16-29 mm uncertainty to the GPS-Acoustic estimated position. A simulation of optimal network geometry shows that the relocation's contribution to uncertainty can be as low as ±10 mm.

机译：由三到四个精密声学应答器组成的刚性海底阵列已通过GPS声学技术重复定位，以测量水平板块的运动。如果一个应答器处于非活动状态，则必须相对于现有阵列精确定位备用应答器。在这里，我们介绍一种确定非活动和替换应答器之间的大地测量方位角和基线的技术。我们提供了2002年至2003年之间在胡安·德·富卡板块和秘鲁-智利海沟附近重新布置的三个示例，这给GPS声学估计位置增加了±16-29 mm的不确定性。最佳网络几何结构的仿真表明，重定位对不确定性的影响可低至±10 mm。

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《Earth, planets and space: EPS》 |2007年第5期|共页
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K. L. Gagnon; C. D. Chadwell;
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1. Relocation of a seafloor transponder - Sustaining the GPS-Acoustic technique [J] . Gagnon KL, Chadwell CD Earth, planets and space: EPS . 2007,第5期

机译：重新安置海底应答器-维持GPS声学技术
2. Comprehensive Analysis of Traveltime Data Collected Through GPS-Acoustic Observation of Seafloor Crustal Movements [J] . Honsho Chie, Kido Motoyuki Journal of Geophysical Research. Biogeosciences . 2017,第10期

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3. Heterogeneous interplate coupling along the Nankai Trough, Japan, detected by GPS-acoustic seafloor geodetic observation [J] . Yusuke Yokota, Tadashi Ishikawa, Mariko Sato, Progress in Earth and Planetary Science . 2015,第1期

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4. Navigation system using seafloor geodetic mirror transponders and full-swath mapping system with synthetic aperture and triangle-arrayed interferometry techniques for autonomous underwater vehicle [C] . Asada A., Ura T. OCEANS 2009, MTS/IEEE Biloxi - Marine Technology for Our Future: Global and Local Challenges . 2009

机译：使用海底大地反射镜应答器的导航系统以及具有合成孔径和三角形阵列干涉技术的全幅测绘系统，用于自动水下航行器
5. An in-situ approach for characterization and modeling of transponder packaging techniques in Radio Frequency Identification systems. [D] . Mats, Leonid. 2007

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6. A comparison of radiographic techniques and electromagnetic transponders for localization of the prostate [O] . Ryan D Foster, David A Pistenmaa, Timothy D Solberg 2012

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7. Relocation of a seafloor transponder—Sustaining the GPS-Acoustic technique [O] . K. L. Gagnon, C. D. Chadwell 2014

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8. Seafloor Construction Experiment, SEACON I -An Integrated Evaluation of Seafloor Construction Equipment and Techniques. [R] . kretschmer, t. r. beard, r. m. 1975

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Relocation of a seafloor transponder—Sustaining the GPS-Acoustic technique

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