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In this thesis, we proposed the usage of a drone as relay node in Network Coded
Cooperation (NCC) for enhancing the reliability as well as throughput for the next
generation wireless communication systems. The usage of drone as relay node in place
of static relay (placed along with nodes in the same horizon plane on the ground) gives
better reliability by adjusting their vertical position. The analysis of the proposed
Drone Assisted Network Coded Cooperation (DA-NCC) network, is divided into two
parts.
In the rst part, we formulated an analytical framework for the proposed DANCC
by considering xed channel distribution (Rayleigh or Rician) for uplink as
well as downlink. The rst part is further sub-divided into two problems namely
problem 1 and problem 2. In the rst problem, initially we considered the Air-to-
Ground (A2G) channel to be Rayleigh distributed for DA-NCC and derived the closed
form expression of the outage probability using two approaches namely, analytical and
semi-analytical. The relaying scheme used at drone is Amplify-and-Forward (AF) and
the combining technique used at the destination node is Maximal Ratio Combining
(MRC). The e ects of drone height on the system performance are also investigated
through simulations by considering Air-to-Ground (A2G) links as Rician distributed. In the second problem, we analysed the performance of DA-NCC in Rician faded
environment and derived the closed form expression of outage probability and rate
by considering Decode-and-Forward (DF) at drone and Selection Combining (SC)
at destination node. Due to the mathematical tractability, at last in the appendix
section we consider only traditional NCC system having two source-destination pairs
for analysing the e ect of DNC-noise in correlated NLoS environment.
In the second part, we proposed a statistical channel model for drone assisted
networks. Our proposed channel model takes the probability of occurrence of Line
of Sight (LoS) along with other system parameters into account while deciding the
appropriate statistical channel model for the A2G links between ground node(s) and
drone. Probability based statistical channel model approach takes statistical independence
of the links (uplink and downlink) into consideration. The second part is further
divided into two sub problems named as problem 3 and problem 4. In problem 3, we
proposed Drone Assisted Device to Device Cooperative Communication (DA-DDCC)
system for critical situations during post-disaster management. The proposed DADDCC
utilizes the autonomous mode of Device-to-Device (D2D) communication for
setting up the link in the absence of a base station. For performance evaluation of the
proposed network, we considered AF at drone and SC at destination and derived the
closed form expressions of average outage probability and average rate using the proposed
channel model. Problem 4 is an extension of problem 3 to a multi-user scenario
in which we analysed the performance of DA-NCC by considering DF at drone and
SC at destination node. Taking statistical independence of uplink and downlink into
consideration, we derived the closed form analytical expressions of average outage
probability and average rate for the proposed DA-NCC system. |
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