Laser Scanning

Major: Geodesy and Land Management
Code of subject: 6.193.01.E.078
Credits: 8.00
Department: Engineering Geodesy
Lecturer: Assistant: Shylo Yevhenii Oleksandrovych
Semester: 6 семестр
Mode of study: денна
Learning outcomes: Ability to use terrestrial laser scanning to solve various geodetic problems: topographic surveying, geodetic surveys of linear structures; creation of 3D models of terrain, buildings and structures, natural objects; executive shootings on construction; observation of deformations of buildings and dangerous phenomena.
Required prior and related subjects: Prerequisites: • Geodesy, p. 3, 4, • Fundamental of applied geodesy, • Geodetic-engineering electronic instruments, • Engineering geodesy p. 1, 2, • Dynamic geodesy.
Summary of the subject: The training module includes tests on theoretical bases and practical tasks related to studied prerequisite modules. The content of the curriculum aims to acquaint students with the basic principles, stages, technology, devices and software for laser scanning.
Assessment methods and criteria: Exam • implementation of test tasks in written form (100%).
Recommended books: 1. Дорожинський О. Л. Наземне лазерне сканування в фотограмметрії. Навчальний посібник. Львів: Видавництво Львівської політехніки, 2014. 96 с. 2. Середович В. А., Комиссаров А. В., Комиссаров Д. В., Широкова Т. А. «Наземное Лазерное Сканирование» \\ Новосибирск: СГГА, 2009. – 261 с. 3. Неволин А.Г., Басаргин А.А. Обработка результатов наземного лазерно-го сканирования и трехмерное моделирование объектов местности. Новосибирск. 111 С. 2012. 4. Theory and practice on Terrestrial Laser Scanning. Training material based on practical applications. Prepared by the Learning tools for advanced three-dimensional surveying in risk awareness project (3DRiskMapping). 2008. 241 P. 5. Hunter, G. (2006): Accurate Terrestrial Laser Scanning from a Moving Platform, Geomatics World, PV Publications, July/August 2006. 6. Grinstead, B., Koschan, A., Page, D., Gribok, A. and Abidi, M.A. (2005): Vehicle-borne Scanning for Detailed 3D Terrain Model Generation, SEA Commercial Vehicle Congress, Chicago, November 2005, SAE Technical Paper 2005-01-3557. 7. King, A. Inertial Navigation – Forty Years of Evolution, GEC Review 1998, 13, 3, 140-149 8. Antero Kukko Mobile Laser Scanning – System development, performance and applications, Doctoral dissertation for the degree of Doctor of Science in Technology, 140 p. 9. Kukko, A., Road Environment Mapper - 3D data capturing with mobile mapping, Licentiate’s thesis. 10. ДБН В.1.3 – 2:2010 Геодезичні роботи в будівництві. 49 С. Київ. 2010.