Radio-frequency electromagnetic compatibility analysis in small and micro satellites (Master's Degree Thesis)Persona da contattare:
XINGLONG WUEmail:
xinglong.wu@polimi.it Corso di studio in Ingegneria Elettrica, Ingegneria Elettronica, Ingegneria delle Telecomunicazioni
Altri membri del gruppo di ricerca:
Ludovica Illiano and the industry supervisor at OHB ItaliaPagina Web:
Details see: Bacheca Tesi (Thesis bulletin board) accessible through the POLIMI online servicesDescrizione
Descrizione:
(Thesis-oriented internship at OHB Italia)
Small and micro satellites present a significant challenge for radio-frequency compatibility verification by analysis, a fundamental step that must be performed within the design loop long before verification by test, which usually occurs at a much later stage of the spacecraft production cycle. The compact size of these platforms results in very limited distances between antennas, typically far smaller than the separation required to remain within the validity limits of the analytical methodologies commonly used for larger spacecraft.
In this context, the aim of the thesis is to develop an analytical approach to address this challenge, specifically:
To use FEKO to develop antenna models typically employed on small and micro platforms (e.g., patch antennas).
To use the FEKO optimization tools to tune and fit these antenna models using information provided by the antenna suppliers.
To use the developed antenna models to derive coupling factors between different antennas at both in band and out of band frequencies in real case scenarios.
Nascondi Descrizione
Metasurface-Enhanced Passive Patches for WiFi-Based Contactless Vital Sign MonitoringPersona da contattare:
SILVIA MURAEmail:
silvia.mura@polimi.it Corso di studio in Ingegneria dell'Automazione, Ingegneria Biomedica, Ingegneria Elettrica, Ingegneria Elettronica, Corso di Studio in Ingegneria Informatica, Ingegneria delle Telecomunicazioni
Altri membri del gruppo di ricerca:
Marouan MizmiziDescrizione
