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:

  1. Estudos sobre órbitas de satélites.

  2. Análise de propagação de sinais em diferentes camadas da atmosfera.

  3. Aplicações de recomendações União Internacional de Telecomunicações (ITU).

Materiais: os materiais disponibilizações sobre a disciplina são:

  1. Notas de aula

  2. Laboratório

  3. Provas

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.