Information GNSS Resources

Major: Geotechnical Engineering
Code of subject: 7.103.03.O.002
Credits: 6.00
Department: Higher Geodesy and Astronomy
Lecturer: Art. teacher, Ph.D. Oksana Serant
Semester: 1 семестр
Mode of study: денна
Learning outcomes: 1. Ability using modern computer technology to create digital geospatial model. 2. Ability to use methodological approaches to assessing natural resources and its environment-friendly forms of use and reproduction. 3. Ability to prepare the necessary documentation and applications for patent and copyright certificates. 4. Ability to formulate problems and build information model of processes for processing obtained practical data. 5. Ability to formulate goals and tasks of monitoring research, design basic models of typical residential research in the development of space monitoring. 6. Ability to create the required data model and design specifications for information. 7. Ability to design base of geospatial data of space monitoring based on unified model.
Required prior and related subjects: Satellite geodesy and spherical astronomy Methods of processing GNSS measurements
Summary of the subject: Tasks object, purpose and content of the discipline. Information Resources: types, classification and development. Getting to know the latest developments in the field of satellite technology in geodesy. Search and using satellite ephemeris specified GPS. The exchange between remote arrays observations permanent GNSS stations. Use of the INTERNET for solving various problems in the field of geodesy. Information resources in a coordinate - time support. Information resources in a coordinate - time support. The systems and timeline. Functions time in satellite technology. GNSS data bases: global, regional and national. Information resources GNSS equipment manufacturers and software. Basics network of active GNSS reference stations.
Assessment methods and criteria: Current control: oral oral and express surveys - 5%, protection of laboratory reports -35%, Final control: exam (written component - 50%, oral component - 10%)
Recommended books: 1. Евстафьев О.В. Наземная инфраструктура ГНСС для точного позиционирования. М.: ООО «Издательство «Проспект», 2009. - 48 с. 2. Літнарович Р.М. Конструювання і дослідження математичних моделей. Модель пункту GPS спостережень. МЕГУ, Рівне, 2009, -104 с. 3. Генике А.А., Побединский Г.Г. Глобальная спутниковая система определения местоположения GPS и ее применение в геодезии. –М.: Картгеоцентр-Геодезиздат, 1999. – 272 с. 4. Мережа референцних GNSS станцій: 5. The International GNSS Service (IGS): prods.html 6. Understanding GPS/GNSS Principles and Applications Third Edition Elliott D. Kaplan, Christopher J. Hegarty: Artech House – Boston/London -2017, -1016 art. 4. Elliott D. Kaplan Christopher J. Hegarty. Understanding GPS/GNSS. Principles and Applications. Third Edition 2017 Artech House, ISBN-13: 978-1-63081-058-0 7. SOPAC: cgi-bin/dbShowArraySitesMap.cgi