Spatial Systems of Positioning and Navigation

Year
0
Academic year
2019-2020
Code
01002077
Subject Area
Área Científica do Menor
Language of Instruction
Portuguese
Other Languages of Instruction
English
Mode of Delivery
Face-to-face
Duration
SEMESTRIAL
ECTS Credits
6.0
Type
Elective
Level
1st Cycle Studies

Recommended Prerequisites

Geodesy.

Teaching Methods

In the practical classes, the most relevant concepts and theoretical results are presented in detail , accompanied by illustrative examples of the theory in a simple but motivating applications and appropriate historical framework. In practical classes students must solve exercises. The fundamental theoretical concepts presented in lectures are accompanied by practical problem solving, and the use of equipment and global positioning systems satellite software. Students may undertake projects in order to put into practice the knowledge acquired.

Learning Outcomes

The main goal is that students acquire skills in global positioning systems applied to solving problems from different areas, including cartography, cadastre, environmental monitoring or planning and land navigation and positioning systems. Accordingly, further study of Spatial Positioning Systems will be done taking into account the various methods of positioning and navigation. Observational techniques and data processing according to the objectives through theoretical and practical study will be analyzed.

Work Placement(s)

No

Syllabus

1. History, Evolution and Perspectives of Navigation and Positioning Systems
Navigation and Global Positioning Systems (GPS, Galileo, GLONASS).
Instrumentation for positioning and satellite navigation.

2. The Global Positioning System (GPS)
Positioning Modes, error sources, data processing strategies.

3. Real-Time Kinematic Positioning
Mathematical models of differential corrections. Modeling errors. Methods and corrections of phase and code formats. Integrity, reliability, continuity and availability.

4. Navigation
Architecture of Systems Based in Location. Cartography for navigation systems. Integrated sensors.

Assessment Methods

Final Assessment
Exam: 100.0%

Continuous Assessment
Project: 15.0%
Mini Tests: 15.0%
Frequency: 70.0%

Bibliography

HOFMANN-WELLENHOF, B., LICHTENEGGER, H. & COLLINS, J., 2001. GPS Theory and Practice. Springer-Verlag, Vienna New York, 5th ed.

Elliott Kaplan and Chris Hegarty Editors, Understanding GPS: Principles and Applications, 2nd Edition, Artech House, 2005