Comunicações via satélite
Ementa: Projeto e análise de enlaces de comunicação via satélite.
Conteúdo: Esta disciplina oferece ao aluno os seguintes conhecimentos sobre comunicação via satélite:
Estudos sobre órbitas de satélites.
Análise de propagação de sinais em diferentes camadas da atmosfera.
Aplicações de recomendações União Internacional de Telecomunicações (ITU).
Materiais: os materiais disponibilizações sobre a disciplina são:
Referências: Todo material de ensino da disciplina foi desenvolvido com base nos seguintes referenciais teóricos:
Principal:
MAINI, A. K., AGRAWAL, V. Satellite technology: principles and applications, 3th, John Wiley & Sons, 2014.
MARAL, G., BOUSQUET M. Satellite communications systems, 5th, John Wiley & Sons Ltd, 2002.
PRATT, T., ALLNUTT, J. E. Satellite communication, 3th, Wiley-Blackwell, 2020.
IPPOLITO, L. J. Satellite Communications Systems Engineering: Atmospheric Effects, Satellite Link Design and System Performance, 2nd, John Wiley & Sons Ltd, 2017.
RIBEIRO, J. A. J. Propagação das ondas eletromagnéticas: princípios e aplicações, Érica, 2008.
Complementar:
RODDY, D. Satellite communications, 4th, McGraw-Hill, 2006.
KOLAWOLE, M. O., Satellite Communication Engineering, 2nd, CRC Press Taylor & Francis Group, 2013.
RICHHARIA, M. Satellite Communication systems: design principles, Macmillan Education UK, 1999.
RIBEIRO, J. A. J. Engenharia de antenas: fundamentos, projetos e aplicações, Érica, 2012.
ILCEV, S. D. Global Aeronautical Distress and Safety Systems: Theory and Applications, Springer, 2020.
RIBEIRO, J. A. J. Engenharia de micro-ondas: fundamentos e aplicações, Érica, 2008.
GHASEMI, A., ABEDI, A., GHASEMI, F. Propagation Engineering in Radio Links Design, Springer, 2013.
Recommendation ITU-R P.525-4: Calculation of free-space attenuation, International Telecommunications Union (ITU), 2019.
IPPOLITO, L. J. Radiowave propagation in satellite communications, Van Nostrand Reinhold Company Inc, 1986.
OLSEN, R., ROGERS, D. and HODGR, D. The aRb relation in the calculation of rain attenuation, IEEE Transactions on Antennas and Propagation, 1978.
Recommendation ITU-R P.837-5: Characteristics of precipitation for propagation modelling, International Telecommunications Union (ITU), 2007.
Recommendation ITU-R P.618-11: Propagation data and prediction methods required for the design of Earth-space telecommunication systems, International Telecommunications Union (ITU), 2013.
Recommendation ITU-R P.839-4: Rain height model for prediction methods, International Telecommunications Union (ITU), 2013.
Recommendation ITU-R P.839-2: Rain height model for prediction methods, International Telecommunications Union (ITU), 1999.
Recommendation ITU-R P.676-12: Attenuation by atmospheric gases, International Telecommunications Union (ITU), 2019.
Recommendation ITU-R S.1064-1: Pointing accuracy as a design objective for earthward antennas on board geostationary satellites in the fixed-satellite service, International Telecommunications Union (ITU), 1995.
ALLNUTT, J. E. Satellite-to-ground radiowave propagation, The Institution of Engineering And Technology, 2011.
Recommendation ITU-R P.531-14: Ionospheric propagation data and prediction methods required for the design of satellite networks and systems, International Telecommunications Union (ITU), 2019.
Recommendation ITU-R P.372-14: Radio noise, International Telecommunications Union (ITU), 2019.