Sinopsis
Improving the accuracy of laser scanning for 3D coordinates measurement one of the most common technique used in 3D measurement has been evaluated theoretically, experimentally and under application. Аn alternative method of 3D coordinates measurement based on the dynamic angles triangulation is presented. The dynamic laser triangulation method description, as well as specific theoretical and experimental aspects of optoelectronic laser scanner functioning, related questions of laser spot energetic center search, mechanical vibration noise filtering, artificial intelligence such as neuronal network, support vector machine and k-nearest neighbors training algorithms application for active data analysis, the method for search of the best coincidences of START/STOP-pulses with reference standard clock pulse train, and uncertainty analysis are given. Based on a model of measuring process, it is shown that the resulting measurement is a rational approximation to the true value and that this approximation has a higher accuracy than approximations by systematic fractions. The properties of mediant fractions are used in the measurement model for two given fractions.
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Reseña del editor
Improving the accuracy of laser scanning for 3D coordinates measurement one of the most common technique used in 3D measurement has been evaluated theoretically, experimentally and under application. Аn alternative method of 3D coordinates measurement based on the dynamic angles triangulation is presented. The dynamic laser triangulation method description, as well as specific theoretical and experimental aspects of optoelectronic laser scanner functioning, related questions of laser spot energetic center search, mechanical vibration noise filtering, artificial intelligence such as neuronal network, support vector machine and k-nearest neighbors training algorithms application for active data analysis, the method for search of the best coincidences of START/STOP-pulses with reference standard clock pulse train, and uncertainty analysis are given. Based on a model of measuring process, it is shown that the resulting measurement is a rational approximation to the true value and that this approximation has a higher accuracy than approximations by systematic fractions. The properties of mediant fractions are used in the measurement model for two given fractions.
Biografía del autor
Oleg Sergiyenko received the B.S., and M.S., degrees in Kharkiv National University of Automobiles and Highways, Ukraine, in 1991, 1993, and Ph.D. in Kharkiv National Polytechnic University in 1997.He has editor of 4 books, written 87 articles, participate as session-chair in many IEEE Congresses. He is currently Head of Department in UABC.
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Methods to Improve resolution of 3D Laser Scanning
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LAP LAMBERT Academic Publishing Jul 2017, 2017
ISBN 10: 6202007559
ISBN 13: 9786202007559
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Taschenbuch. Condición: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -Improving the accuracy of laser scanning for 3D coordinates measurement one of the most common technique used in 3D measurement has been evaluated theoretically, experimentally and under application. n alternative method of 3D coordinates measurement based on the dynamic angles triangulation is presented. The dynamic laser triangulation method description, as well as specific theoretical and experimental aspects of optoelectronic laser scanner functioning, related questions of laser spot energetic center search, mechanical vibration noise filtering, artificial intelligence such as neuronal network, support vector machine and k-nearest neighbors training algorithms application for active data analysis, the method for search of the best coincidences of START/STOP-pulses with reference standard clock pulse train, and uncertainty analysis are given. Based on a model of measuring process, it is shown that the resulting measurement is a rational approximation to the true value and that this approximation has a higher accuracy than approximations by systematic fractions. The properties of mediant fractions are used in the measurement model for two given fractions. 132 pp. Englisch. Nº de ref. del artículo: 9786202007559
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Methods to Improve resolution of 3D Laser Scanning
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ISBN 10: 6202007559
ISBN 13: 9786202007559
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Methods to Improve resolution of 3D Laser Scanning
Publicado por
LAP LAMBERT Academic Publishing Jul 2017, 2017
ISBN 10: 6202007559
ISBN 13: 9786202007559
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Librería: buchversandmimpf2000, Emtmannsberg, BAYE, Alemania
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Taschenbuch. Condición: Neu. This item is printed on demand - Print on Demand Titel. Neuware -Improving the accuracy of laser scanning for 3D coordinates measurement one of the most common technique used in 3D measurement has been evaluated theoretically, experimentally and under application. ¿n alternative method of 3D coordinates measurement based on the dynamic angles triangulation is presented. The dynamic laser triangulation method description, as well as specific theoretical and experimental aspects of optoelectronic laser scanner functioning, related questions of laser spot energetic center search, mechanical vibration noise filtering, artificial intelligence such as neuronal network, support vector machine and k-nearest neighbors training algorithms application for active data analysis, the method for search of the best coincidences of START/STOP-pulses with reference standard clock pulse train, and uncertainty analysis are given. Based on a model of measuring process, it is shown that the resulting measurement is a rational approximation to the true value and that this approximation has a higher accuracy than approximations by systematic fractions. The properties of mediant fractions are used in the measurement model for two given fractions.VDM Verlag, Dudweiler Landstraße 99, 66123 Saarbrücken 132 pp. Englisch. Nº de ref. del artículo: 9786202007559
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Methods to Improve resolution of 3D Laser Scanning
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ISBN 10: 6202007559
ISBN 13: 9786202007559
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Taschenbuch. Condición: Neu. nach der Bestellung gedruckt Neuware - Printed after ordering - Improving the accuracy of laser scanning for 3D coordinates measurement one of the most common technique used in 3D measurement has been evaluated theoretically, experimentally and under application. n alternative method of 3D coordinates measurement based on the dynamic angles triangulation is presented. The dynamic laser triangulation method description, as well as specific theoretical and experimental aspects of optoelectronic laser scanner functioning, related questions of laser spot energetic center search, mechanical vibration noise filtering, artificial intelligence such as neuronal network, support vector machine and k-nearest neighbors training algorithms application for active data analysis, the method for search of the best coincidences of START/STOP-pulses with reference standard clock pulse train, and uncertainty analysis are given. Based on a model of measuring process, it is shown that the resulting measurement is a rational approximation to the true value and that this approximation has a higher accuracy than approximations by systematic fractions. The properties of mediant fractions are used in the measurement model for two given fractions. Nº de ref. del artículo: 9786202007559
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