Abstract:
The Capstone II project investi gates non-orthogonal multiple access
(NOMA) assisted cognitive satellite terrestrial network which is practically
limited by channel state informa tion mismatch, interference noises,
imperfect successive interference
cancellation as well as transceiver
hardware impairments. Generalized
coverage probability expressions for
terrestrial NOMA end-users in are
estimated taking into account the
impact of constraints caused by inter ference temperature. Finally, obtained
results are corroborated by Monte
Carlo simulations and compared with
the conventional orthogonal multiple
access scheme to demonstrate the
advantageous performance of the
system network under consideration.
Furthermore, the deteriorative impact
of practical limitations are studied.