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Ray-Tracing Method for Deriving Terrestrial Laser Scanner Systematic Errors

Lichti, Derek D

AbstractA new ray-tracing method for deriving the effect of instrumental systematic errors in terrestrial laser scanner (TLS) instruments is proposed. Three cases of mirror inclination error for the panoramic scanner architecture are used as examples to demonstrate the applicability of the method. The results show that all three errors can be effectively compensated for by model variables already inherent to the augmented TLS positioning equations. Specifically, the effects can be compensated for by the collimation axis and trunnion axis error terms and the tertiary rotation angle of the exterior orientation parameters.

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Ray-Tracing Method for Deriving Terrestrial Laser Scanner Systematic Errors

Lichti, Derek D

AbstractA new ray-tracing method for deriving the effect of instrumental systematic errors in terrestrial laser scanner (TLS) instruments is proposed. Three cases of mirror inclination error for the panoramic scanner architecture are used as examples to demonstrate the applicability of the method. The results show that all three errors can be effectively compensated for by model variables already inherent to the augmented TLS positioning equations. Specifically, the effects can be compensated for by the collimation axis and trunnion axis error terms and the tertiary rotation angle of the exterior orientation parameters.

Ray-Tracing Method for Deriving Terrestrial Laser Scanner Systematic Errors

Lichti, Derek D

AbstractA new ray-tracing method for deriving the effect of instrumental systematic errors in terrestrial laser scanner (TLS) instruments is proposed. Three cases of mirror inclination error for the panoramic scanner architecture are used as examples to demonstrate the applicability of the method. The results show that all three errors can be effectively compensated for by model variables already inherent to the augmented TLS positioning equations. Specifically, the effects can be compensated for by the collimation axis and trunnion axis error terms and the tertiary rotation angle of the exterior orientation parameters.

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Title:

Ray-Tracing Method for Deriving Terrestrial Laser Scanner Systematic Errors

Contributors:

Lichti, Derek D (author)

Published in:

Journal of surveying engineering ; 143

Publication date:

2017

ISSN:

DOI:

https://doi.org/10.1061/(ASCE)SU.1943-5428.0000213

Type of media:

Article (Journal)

Type of material:

Print

Language:

English

Keywords:

Geodäsie , Zeitschrift , Kartografie

Classification:

BKL: 38.73 Geodäsie
Local classification TIB: 770/3225

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