2 edition of The Spring 1985 high precision baseline test of the JPL GPS-based geodetic system found in the catalog.
The Spring 1985 high precision baseline test of the JPL GPS-based geodetic system
by National Aeronautics and Space Administration, Jet Propulsion Laboratory, California Institute of Technology in Pasadena, Calif
Written in English
|Statement||John M. Davidson ... [et al.].|
|Series||NASA-CR -- 182686., NASA contractor report -- NASA CR-182686.|
|Contributions||Davidson, John M., Jet Propulsion Laboratory (U.S.)|
|The Physical Object|
, he led the development of multiple generations of China’s SLR stations and software for precision orbit determination. From to , Yang was a Visiting Scholar in the Quantum Electronics Group at the University of Maryland College Park in the USA. TheFile Size: 9MB. Books by Language Journal of materials engineering. Journal of paediatric dentistry. Additional Collections Featured movies All video latest This Just In .
H. Uematsu, B. W. Parkinson, “Antenna Baseline and Line Bias Estimation Using Pseudolites for GPS Based Attitude Determination,” submitted and presented at ION-GPS, Salt Lake City, Utah, Septem C. Kee, B. W. Parkinson, “Calibration of Multipath Errors on GPS Pseudorange Measurements,” ION GPS Library of Congress Cataloging-in-Publication Data (Revised for vol. 8) NASA historical data book. (NASA SP- ) Vol. 1 is a republication of NASA historical data book, –/ Jane Van Nimmen and Leonard C. Bruno. Vol. 8 in series: The NASA historical data book series. Includes bibliographical references and indexes.
From the Sea to the Stars: A Chronicle of the U.S. Navy's Space and Space-related Activities, Sponsored by Deputy Assistant Secretary of the Navy (C3I and Space) Dr Gary A. Federici Edited by The Applied Research Laboratory The Pennsylvania State University Revised and updated edition, The corresponding networks of GPS control points were originally called High Precision Geodetic Networks (HPGN). Currently, they are referred to as High Accuracy Reference Networks (HARN). This latter name reflects the fact that relative accuracies among HARN control points are better than 1 ppm, whereas relative accuracies among pre-existing 5/5(1).
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Get this from a library. The Spring high precision baseline test of the JPL GPS-based geodetic system: a final report. [John M Davidson; Jet Propulsion Laboratory (U.S.);]. Plate tectonics from VLBI and SLR global data. high precision baseline test of the JPL GPS-based.
geodetic system: A final report. Precise orbits of the Global Positioning System (GPS) satellites are fundamental constituents of GPS-based space geodesy. Accurate baseline estimates with a precision of one to a few parts in are essential to the study of Earth's dynamics problems. As a by-product of trajectory estimation, high resolution Earth Rotation Parameters (ERPs) can also be by: Book.
Jan ; Ben Shneiderman The Spring high precision baseline test of the JPL GPS-based geodetic system. Scott A. Stephens [ ] R. Neilan; The Spring High Precision. Melbourne WG () The case for ranging in GPS based geodetic system. In: First international symposium on position with global positioning system, Rockville, Maryland, April 15–19, pp – Moudrak A, Konovaltsev A, Furthner J, Hornbostel A, Hammesfahr J () GPS-galileo time offset: how it affects positioning accuracy and how to cope Cited by: The Global Positioning System for the Geosciences: Summary and Proceedings of a Workshop on Improving the GPS Reference Station Infrastructure for Earth, Oceanic, and Atmospheric Science Applications.
Washington, DC: The National Academies Press. doi: / References. Alfred Leick Ph.D. Department of Geodetic Science, Ohio State University, USA. Search for more papers by this author. Lev Rapoport Ph.D. Institute of System Analysis of the Russian Academy of Science (RAS), Moscow; Doctor of Science Degree in Automatic Control from the Institute of Control Sciences RAS, Moscow, Russia.
Member, Global Geodetic Observing System Committe on Essential Geodetic Variables (present) Member, IAG Joint Working Group on Relativistic Geodesy () President, Committee on Space Research (COSPAR) Sub-Commission B2: International Coordination of Space Techniques for Geodesy ().
The high‐rate GPS technique builds on the basic tools and developments used in traditional GPS analysis: precise orbits in a well‐defined terrestrial reference frame, an expanded constellation of 29 GPS satellites providing greater global coverage, and Cited by: In this paper, the reliability and practicability of using high-rate carrier phase global positioning system (GPS) receivers are investigated to characterize dynamic oscillations of bridges.
Initially, the short baseline trial is conducted to study the precision and characteristics of such kind of receivers as well as the potential applications Cited by: Bender, P. and D. Larden, GPS carrier phase ambiguity resolution over long baselines, in Goad C.
(ed), Proceedings of the First International Symposium on Precise Positioning with the Global Positioning System, Volume 1, National.
Accuracy and Precision of your GPS Most geological mappers need to know the accuracy of their work. The more detailed the work required, the higher the accuracy to support the mapping. With GPS-based mapping, you can ascertain both the accuracy and precision of File Size: KB. GPS-Based Geodesy Tracking: Technology Prospects for the Year W.
Melbourne Jet Propulsion Laboratory California Institute of Technology Pasadena, California INTRODUCTION The twenty-first century is a scant dozen years away, too near for many landmark advances in technology, yet long enough for a few surprises to emerge.
receiver being developed by the NASA Jet Propulsion Laboratory for geodetic and atmospheric satellite science missions. The BlackJack is a state-of-the-art, channel, L1/L2 Y-codeless GPS space receiver. Three channels per GPS satellite are used for C/A-code tracking of the L1 carrier and codeless tracking of the L1 and L2 carriers, so.
checks on baseline geometry, since true baseline geometry is always exploited in the generation of candidate solutions. All satellite data is used at each epoch, allowing for easy scaling with greater numbers of satellites or baselines.
Most importantly for a test-and-development environment, attitude. Results and discussion General remarks. Many papers have been published concerning the study of the strain rate derived from the GPS data of continuous operating permanent stations in the Italian Peninsula,, ; the novelty of our work is the usage of GLOBK to simultaneously adjust a network of permanent GPS sites and to compute the corresponding strain-rate field Cited by: 2.
providing high-frequency navigation estimates, also during eventual losses of high-accuracy GPS solution, and a multi-antenna con guration is adopted to achieve GPS-based atti-tude estimation, that is, high-accuracy heading measure-ments, primarily.
Finally, an extended Kalman lter (EKF) integrates those measurements to generate the accurate nav-Cited by: 6. NASA Images Solar System Collection Ames Research Center Brooklyn Museum Full text of " International GPS (Global Positioning System) Service for Geodynamics ".
system for attitude determination, but needed it continuous data from phase-locked loops for long periods of time . It did not have to deal with data gaps and frequent changes of integer ambiguities. A strategy is designed in which a coarse acquisition is followed by calculations that involve a series of.
Ackerman, Sumner/EG&G, "Design Study of Advanced Geodetic Laser System, AFCRL Scientific Report No. 1", (AFCRL) Sept Ackerman, Sumner/EG&G, "High Energy Laser System for Geodetic Research, AFCRL Final Report", (AFCRL).
Sensor Source Book ď ˇ Summer/Fall ISO certified manufacturer of custom-made, precision wire and cable for the aerospace, biomedical, military, sensors and robotics industries.Feasibilityofdisplacement monitoringusing low-cost GPSreceivers Hongki Jo1, Sung-Han Sim2, Andrzej Tatkowski1, B.
F. Spencer Jr.1,*,† and Mark E. Nelson3 1Department of Civil and Environmental Engineering, University of Illinois at Urbana-Champaign, Urbana, IL USA 2School of Urban and Environmental Engineering, UNIST, UlsanKorea 3Department of Molecular and Integrative.The additional signal is the vertical component of the 3D-velocity that is reported by the GPS.
By using spectral analysis together with system identification the additional signal, which is based on velocity information, is compared to the previously used signal which is based on position information (altitude).