Assessment of inner reliability in the Gauss-Helmert model

Ettlinger, Andreas; Neuner, Hans

doi:10.1515/jag-2019-0013

Cited by 4 publications

(5 citation statements)

References 21 publications

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“…Further inconsistent data are identified by the iterative statistical method data snooping (see Ettlinger and Neuner 2020). In doing so, an adjustment is carried out in every iteration step, and based on its results the stochastic variables are each tested for gross errors by a statistical test (see Appendix C).…”

Section: Analysis Methodsmentioning

confidence: 99%

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On the making of Ptolemy’s star catalog

Marx¹

2020

Arch. Hist. Exact Sci.

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The assumption that Ptolemy adopted star coordinates from a star catalog by Hipparchus is investigated based on Hipparchus' equatorial star coordinates in his Commentary on the phenomena of Aratus and Eudoxus. Since Hipparchus' catalog was presumably based on an equatorial coordinate system, his star positions must have been converted into the ecliptical system of Ptolemy's catalog in his Almagest. By means of a statistical analysis method, data groups consistent with this conversion of coordinates are identified. The found groups show a high degree of agreement between Hipparchus' and Ptolemy's data. The value of the obliquity of the ecliptic underlying the conversion is estimated by adjustment and statistically agrees with Ptolemy's value of this parameter. The results allow the assumption that Ptolemy's coordinates were determined from Hipparchus' coordinates by an accurate star globe or even by calculation. For a calculative derivation of ecliptical coordinates from equatorial ones, possible calculation methods are discussed considering the mathematics of the Almagest.

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Section: Analysis Methodsmentioning

confidence: 99%

“…where r i is the redundancy number of the ith stochastic variable (cf. Ettlinger and Neuner 2020). If the accuracy of the stochastic variables is unknown, the externally studentized residual…”

Section: Statistical Testsmentioning

confidence: 99%

On the making of Ptolemy’s star catalog

Marx¹

2020

Arch. Hist. Exact Sci.

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“…For the identification of further inconsistent data, the iterative statistical method data snooping (e.g., Ettlinger & Neuner 2020) is used. In every iteration step, an adjustment according to Section 3.1 is computed, and the stochastic variables are each tested for gross errors (outliers) by the externally studentized residual

T_{i} = \frac{v_{i} \sqrt{p_{i}}}{s_{0}^{'} \sqrt{r_{i}}} with

s_{0}^{'} = \sqrt{\frac{S - v_{i}^{2} p_{i} false/ r_{i}}{f - 1}}

(e.g., Jäger et al 2005, p. 193), where v i is the residual of the i th stochastic variable, r i is its redundancy number (see e.g., Ettlinger & Neuner 2020), S is the weighted sum of squared residuals, and f is the number of degrees of freedom of the adjustment (for the present type of adjustment, f = No. of condition equations − 2; two‐sided test).…”

Section: Analysis Methodsmentioning

confidence: 99%

“…For the estimation of the unknown parameters, the method of least squares is applied. The numerical solution is achieved by a linearization of the condition equations and an iterative solving (e.g., Ettlinger & Neuner 2020). For the linearization, the analytical expressions of the partial derivatives of the condition equations with respect to the parameters and stochastic variables were determined by the application Mathematica (Wolfram Research, Inc. 2005).…”

Section: Analysis Methodsmentioning

confidence: 99%

The determination of Hipparchus' phenomena and their consistency with the Almagest star catalog

Marx¹

2020

Astron Nachr

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The derivation of the phenomena in Hipparchus' Commentary on the phenomena of Aratus and Eudoxus from the star positions of his presumed star catalog is investigated under the assumption of their determination by a star globe. As most of Hipparchus' star coordinates are not available, they are reconstructed from the star catalog in Ptolemy's Almagest. Data consistent with the assumed determination of the phenomena are identified by a statistical method for the elimination of erroneous data; the parameters underlying this determination and the data accuracy are estimated by adjustment theory. The results indicate that, for the majority of the data under investigation, an accurate determination by a globe can be assumed. The estimated values of the parameters, the obliquity of the ecliptic and the observer's latitude, agree with information from historical sources and with values found in previous investigations of Hipparchus' data. Moreover, in most instances, the conducted analysis substantiates a strong relation between Ptolemy's and Hipparchus' star data under investigation.

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“…Wang et al (2020) applied Baarda's data snooping algorithm for the equality constrained, nonlinear GHM while using sensitivity analysis. Some aspects of minimum detectable bias (MDB) and statistical tests to identify outliers for the GHM are presented in Ettlinger and Neuner (2020).…”

Section: Introductionmentioning

confidence: 99%

On the Reliability of Mixed Ls Adjustment Models

Even-Tzur

2023

Geodesy and Cartography

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This paper examines the internal and external reliability criteria of the mixed LS adjustment model. We use the reliability concept to quantify the potential for detecting gross errors and to estimate their impact on the adjusted parameters. After a short introduction to the mixed adjustment model, the hat matrix and Baarda’s data snooping we describe the theoretical tools developed to define the internal and external reliability in the mixed adjustment model. The paper presents the results of an example of LS adjustment of transformation parameters between two coordinate systems, indicating that the reliability can be used effectively for this model.

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Assessment of inner reliability in the Gauss-Helmert model

Cited by 4 publications

References 21 publications

On the making of Ptolemy’s star catalog

On the making of Ptolemy’s star catalog

The determination of Hipparchus' phenomena and their consistency with the Almagest star catalog

On the Reliability of Mixed Ls Adjustment Models

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