Details

Title

Shift-Msplit estimation

Journal title

Geodesy and Cartography

Yearbook

2011

Volume

vol. 60

Issue

No 2

Authors

Keywords

geodetic adjustment ; Msplitestimation ; Shift-Msplitestimation

Divisions of PAS

Nauki Techniczne

Publisher

Commitee on Geodesy PAS

Date

2011

Type

Artykuły / Articles

Identifier

DOI: 10.2478/v10277-012-0009-6 ; ISSN 2080-6736

Source

Geodesy and Cartography; 2011; vol. 60; No 2

References

Caspary W. (1988), Concepts of network and deformation analysis. ; Chen Y.Q., (1983): <i>Analysis of deformation surveys. A generalized method</i>, Technical Report No 94, University of New Brunswick, Surveying Engineering, Fredericton, N.B., Canada. ; Cross P. (1985), A strategy for distinction between single and multiple gross errors in geodetic networks, Manuscripta Geodaetica, 10, 4, 172. ; Duchnowski R. (2008), R-estimation and its application to the LS adjustment, Bollettino di Geodesia e Scienze Affini, 67, 1, 17. ; Duchnowski R. (2009), Geodetic Application of R-estimation - Levelling Network Examples, Technical Sciences, 12, 135, doi.org/10.2478/v10022.008-0012-9 ; Duchnowski R. (2010), Median-based estimates and their application in controlling reference mark stability, Journal of Surveying Engineering, 136, 2, 47, doi.org/10.1061/(ASCE)SU.1943-5428.0000014 ; Gordon S. (2007), Modeling Terrestrial Laser Scanner Data for Precise Structural Deformation Measurement, Journal of Surveying Engineering, 133, 2, 72, doi.org/10.1061/(ASCE)0733-9453(2007)133:2(72) ; Gui Q. (2007), A Bayesian approach to the detection of gross errors based on posterior probability, Journal of Geodesy, 81, 651, doi.org/10.1007/s00190-006-0132-y ; Kubáčkowá L. (1991), Optimum processing of measurements from a group of instruments affected by drift, Manuscripta Geodaetica, 16, 148. ; Lichti D. (2005), Error Models and Propagation in Directly Georeferenced Terrestrial Laser Scanner Networks, Journal of Surveying Engineering, 131, 4, 135, doi.org/10.1061/(ASCE)0733-9453(2005)131:4(135) ; Mertikas S. (2007), Monitoring the quality of GPS station coordinates in real time, GPS Solutions, 11, 119, doi.org/10.1007/s10291-006-0044-6 ; Mubarak O. (2010), Analysis of early late phase in single-and dual-frequency GPS receiver for multipath detection, GPS Solutions, 14, 381, doi.org/10.1007/s10291-010-0162-z ; Pavelyev A. (2010), Phase acceleration: a new important parameter in GPS occultation technology, GPS Solutions, 14, 3, doi.org/10.1007/s10291-009-0128-1 ; Prószyński W. (1997), Measuring the robustness potential of the least-squares estimation: geodetic illustration, Journal of Geodesy, 71, 652, doi.org/10.1007/s001900050132 ; Prószyński W. (2010), Another approach to reliability measures for systems with correlated observations, Journal of Geodesy, 84, 547, doi.org/10.1007/s00190-010-0394-2 ; Rousseeuw P. (2002), Robust estimation in very small samples, Computation Statistics Data Analysis, 40, 4, 741, doi.org/10.1016/S0167-9473(02)00078-6 ; Singh R. (2001), Deformation analysis of a geodetic monitoring network, Geomatica, 55, 3, 333. ; Schaffrin B. (1994), Multiplicative outlier search using homBLUP and an equivalence theorem, Manuscripta Geodaetica, 20, 1, 21. ; Wiśniewski Z. (1985), The effect of the asymmetry of geodetic observation error distribution on the results of adjustment by the least squares method, Geodesy and Cartography, 34, 11, 11. ; Wiśniewski Z. (2009a), Estimation of parameters in a split functional model of geodetic observations (M<sub>split</sub> estimation), Journal of Geodesy, 83, 105, doi.org/10.1007/s00190-008-0241-x ; Wiśniewski Z. (2009b), M<sub>split</sub> estimation. Part I: Theoretical foundation, Geodesy and Cartography, 58, 1, 3. ; Wiśniewski Z. (2009c), M<sub>split</sub> estimation. Part II: Squared M<sub>split</sub> estimation and numerical examples, Geodesy and Cartography, 58, 1, 23. ; Wiśniewski Z. (2010), Msplit(q) estimation: estimation of parameters in a multi split functional model of geodetic observations, Journal of Geodesy, 84, 355, doi.org/10.1007/s00190-010-0373-7

Aims and scope

The Advances in Geodesy and Geoinformation (formerly “Geodesy and Cartography”) is an open access international journal (semiannual) concerned with the study of scientific problems in the field of geodesy, geoinformation and their related interdisciplinary sciences. The journal has a rigorous peer–review process to ensure the best research publications. It is publishing peer–reviewed original articles on theoretical or modelling studies, and on results of experiments associated with geodesy and geodynamics, geoinformation, cartography and GIS, cadastre and land management, photogrammetry, remote sensing and related disciplines. Besides original research articles, the Advances in Geodesy and Geoinformation also accepts review articles on topical subjects, short notes/letters and communication of a great importance to the readers, and special issues arising from the national/international conferences as well as collection of articles that concentrates on a hot topical research area that falls within the scope of the journal.

Content of Advances in Geodesy and Geoinformation is archived with a long-term preservation service by the National Library of Poland.

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