@Article{LeiteLuce:2023:EfEqIo,
author = "Leite, Daniel Anderson de Souza and Lucena, Antonio Macilio
Pereira de",
affiliation = "Instituto Federal de Educa{\c{c}}{\~a}o, Ci{\^e}ncia e
Tecnologia do Cear{\'a} (IFCE) and {Instituto Nacional de
Pesquisas Espaciais (INPE)}",
title = "Effects of Equatorial Ionospheric Scintillation on GPS Coherent
Carrier Phase Recovery",
journal = "International Journal of Engineering and Technical Research",
year = "2023",
volume = "13",
number = "1",
pages = "6--15",
month = "Jan./June",
keywords = "Ionosphere, Scintillation, Fading Channel, GPS coherent carrier
recovery.",
abstract = "GPS stands for Global Position System, this article aims to go
into detail about this system, illustrating its specifications as
a whole and specifically about a proposed Simulink GPS receiver
model and its subsystems. The methodology used consists of
exposing the theory on the subject and the architecture of the
systems used. Multipath fading channel, ionospheric scintillation
and coherent carrier recovery are discussed in depth. The
Multipath Channel illustrates the path of electromagnetic
propagation from orbiting satellites to the receiver in the
vicinity of the Earth. Scintillation is the effect that the
propagation suffers when passing through the ionosphere, the
region which is located between the satellite and the receiver.
Coherent carrier recovery deals with the function of the receiver
in recovering the signal emitted by the transmitter. After
building the GPS receiver model in question, validating and
simulating the behavior of the receiver in an ionospheric
scintillation environment, it was possible to carefully observe
the performance of the receiver, how it behaves and how its
parameters can change its reception quality.",
issn = "2321-0869 and 2454-4698",
language = "en",
targetfile = "IJETR3066.pdf",
urlaccessdate = "11 maio 2024"
}