Comparison of reliability and geometrical strength criteria in geodetic networks |
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Authors: | A A Seemkooei |
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Institution: | (1) Department of Surveying Engineering, Faculty of Engineering, The University of Isfahan, Isfahan, 81744, Iran e-mail: amiri@eng.ui.ac.ir/ar_amiri@yahoo.com; Tel.: +98-311-7932680; Fax: +98-311-682887, IR |
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Abstract: | The proper and optimal design and subsequent assessment of geodetic networks is an integral part of most surveying engineering
projects. Optimization and design are carried out before the measurements are actually made. A geodetic network is designed
and optimized in terms of high reliability and the results are compared with those obtained by the robustness analysis technique.
The purpose of an optimal design is to solve for both the network configuration (first-order design) and observations accuracy
(second-order design) in order to meet the desired criteria. For this purpose, an analytical method is presented for performing
the first-order design, second-order design, and/or the combined design. In order to evaluate the geometrical strength of
a geodetic network, the results of robustness analysis are displayed in terms of robustness in rotation, robustness in shear,
and robustness in scale. Results showed that the robustness parameters were affected by redundancy numbers. The largest robustness
parameters were due to the observations with minimum redundancy numbers.
Received: 14 August 2000 / Accepted: 2 January 2001 |
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Keywords: | : First-order Design Second-order Design Combined Design Reliability Criterion Robustness Analysis |
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