Abstract
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Article Information:
Investigation and Comparison of Localization and Accurate Industrial Measurement through ¬Classic and Modern Mapping Methods
Seyed Abdolreza Adnani
Corresponding Author: Seyed Abdolreza Adnani
Submitted: July 4,2013
Accepted: July 30, 2013
Published: October 20, 2013 |
Abstract:
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The purpose of this study is investigation and comparison of localization and accurate industrial measurement through classic and modern mapping methods. in this research and it is proved that if the objective is to determine the coordinates of an event or the geometry of an object, there is no need to align and the coordinates of points on a target, which is generally an ultimate objective of a local mapping project, can be reached and can save the necessary time for aligning and deploying device only through measuring the lengths and angles in Theodolite orthogonal framework. Existence of error in measurement and the need for a unit and close-to-truth response for measured quantities are among the most important issues of measurement science, so that it is possible to determine the accuracy and reliability of mapping projects only through these issues and proper application of mathematical language. Observations of total station (Horizontal angle, vertical angle and oblique length) are performed in the Local Astronomy Coordinate System which can be time consuming and cause disruption in core activity of industrial sector according to the time required to locate and align device. Alignment in Goniometer and Distance Measurement or Total Station tools are investigated. Numerical results of this research indicate the complete success of presented method. Thus, this paves the ways for application of total station as a quick tool in open industrial environments and provided theory can create the industrial capabilities for ¬classic mapping.
Key words: Astronomy coordinate, geodetic coordinate, theodolite, total station, , ,
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Cite this Reference:
Seyed Abdolreza Adnani, . Investigation and Comparison of Localization and Accurate Industrial Measurement through ¬Classic and Modern Mapping Methods. Research Journal of Environmental and Earth Sciences, (10): 591-598.
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ISSN (Online): 2041-0492
ISSN (Print): 2041-0484 |
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