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Navegação e Aviónica

Código 15242
Ano 1
Semestre S2
Créditos ECTS 6
Carga Horária TP(60H)
Área Científica Aeronáutica e Astronáutica
Learning outcomes • Knowing the principles of air navigation;
• Knowing the avionics systems operating principles, analysis and design methods;
• Being able to process avionics systems data (signal representation, spectral analysis, filtering, data fusion, systems integration, etc...).
Syllabus
Part I (Air Navigation) - WGS-84 Earth Model. Coordinates representation and transformation for air navigation. Loxodromes and Orthodromes. Basic instruments for air navigation. QDM and QDR. Inertial navigation systems.

Part II (Emission/Reception & Signal Processing) - General principles of emission/reception systems. Principles of radionavigation antennas. Radar principles. Representation of signals. Spectral analysis. Filtering. Data Fusion.

Part III (Avionics Systems) - Medium-range systems (ADF, VOR, DME, TACAN, …). Short-range systems (Radioaltimeter, GPWS, ILS, …). LORAN system (long range). GNSS satellite navigation system (GPS, Galileo, GLONASS, …). Integration of avionics systems. FMS and FMGS system. TCAS system. ADS-B system.
Teaching Methodologies and Assessment Criteria
ASSESSMENT CRITERIA:

A. LEARNING PHASE

- Tutorial Lectures (20%)
- Test: (40%), May 04, 2026.
- Two Miniprojects: (2 x 20%).

B. CONDITION FOR ADMISSION TO THE EXAM: have an average mark of at least 6/20 during the learning phase.

C. EXAM: Written exam (100%).

D. Final Mark: the highest mark in the learning phase and in the exam, comparatively.
Main Bibliography 1. R.P.G. Collinson, Introduction to Avionics Systems, 3rd Edition, Springer, 2011.
2. Helfrick, A., Practical Aircraft Electronic Systems, Prentice-Hall, 1997.
3. Kayton, M., and R.F. Walter: Avionics Navigation Systems. John Wiley & Sons, 1997.
4. Manring, N. D., Hydraulic Control Systems, John Wiley & Sons, 2005.
5. Eismin, T., Aircraft Electricity and Electronics, 5th Ed., 1994.
6. Parkinson, B. W., J. Spilker, P. Axelrad, P. Enge: Global Positioning System: Theory and Applications. AIAA Publications, 1996.
7. Vermeille, H., Direct transformation from geocentric coordinates to geodetic coordinates, Journal of Geodesy, Vol. 76 (2002), pp. 451-454.
8. Vermeille, H., Computing geodetic coordinates from geocentric coordinates, Journal of Geodesy, Vol. 78 (2004), pp. 94-95.
Language Portuguese. Tutorial support is available in English.
Imagem d@ Kouamana Bousson [Ficheiro Local]
Kouamana Bousson

Curso

Engenharia Aeronáutica
Data da última atualização: 2026-03-24
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