Satellite and Terrestrial Wireless Networks Integration - UTS Project

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Added on 2023/06/07

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This project explores the integration of satellite and terrestrial wireless networks, focusing on hybrid models for incorporating satellites with existing terrestrial communications. It analyzes the dependency of terrestrial communication on satellite systems and aims to optimize routing protocols for broadband hybrid satellite communication IP networks. The research investigates challenges and future strategies in the telecommunications sector, proposing solutions for hybrid wireless access networks (WLAN, 2G, 3G) and extending solutions for satellite systems based on the DVB-S/RCS protocol stack. It examines the architecture of satellite wireless networks, identifies issues in terrestrial wireless networks, and uses simulation tools like NS2 to assess routing algorithm performance in hybrid satellite communication systems. The study concludes by highlighting the potential for improved network performance and the integration of satellite structures in terrestrial wireless communication frameworks. Desklib provides access to this project and many other solved assignments for students.

Integration between satellite and terrestrial wireless networks
Abstract - This exploration depends on combination of satellite
systems and earthly remote systems. The primary objective of
research paper has been investigating cross breed models for
incorporating satellites with existing earthbound remote
correspondences. The point of the research is to break down the
reliance of earthbound remote correspondence on satellite
correspondence. This paper aims at optimizing routing protocol
for broadband hybrid satellite communication IP network
system.
Keywords: Low Earth Orbit (LEO), Object Tool
Command Language (OTCL), on-board preparing
(OBP),
I. INTRODUCTION
The fate of the media transmission will be found out from
the results of the investigation. This examination will talk
about the future ways and procedures for limiting the
difficulties in the media transmission part. This exploration
will help in recognizing a few answers for handling half
breed frameworks of remote access organizing including
WLAN and second and third era of Mobile Networks. This
paper will help in stretching out answers for a satellite
frameworks dependent on DVB-S/RCS convention stack
[1] This examination will help in dissecting dangers
associated with the incorporation of satellite frameworks in
earthly remote correspondence systems. This exploration
will incorporate a fundamental investigation of the
utilization of a few earthly guidelines in a satellite setting
of 4G get to. Satellites have been used in various purposes
that brings up new opportunities as well as challenges of
satellite and telecommunication industries.
A. RESEARCH AIM, OBJECTIVES AND
QUESTIONS
The aim of study is to integrate satellite and terrestrial
wireless communication networks. This paper aims at
optimizing routing protocol for broadband hybrid satellite
communication IP network system.
Following are the objectives of the study:
• To analyze architecture of the satellite wireless
networks
• To identify issues in the terrestrial wireless
networks in communication
• To integrate satellite and terrestrial wireless
networks in communications
Following are the research questions:
• What is architecture of satellite wireless
networks?
• What are the issues in terrestrial wireless
networks in communication?
• How to integrate satellite and terrestrial wireless
networks in communications?
II. LITERATURE REVIEW
The main issue is to enhance TCP execution over satellite
systems and a convention called beneficiary window
backpressure convention is proposed to be utilized inside
the satellite systems (RWBP). RWBP has recently
composed clog control, blunder control and cradle
administration plans. Furthermore, it requires less invert
channel data transfer capacity without yielding the forward
channel throughput. RWBP can still keep up great
execution notwithstanding when there is high need activity,
for example, spilling video and sound contending with the
TCP movement in the satellite systems. The second issue is
to examine the exchange of short messages with deferral
limitations in the switch channel [9]. Satellite transaction
has been important in the cases of the telecommunication
industry. The use of terrestrial satellite has been
maintained in different characteristics for developing
different role in the industry. The clarity in the sound has
been improved in the industry. The range of
telecommunication has been increased in maximum range
[6].
Figure 2: Architecture of the integrated wireless sensor
and cognitive satellite terrestrial networks
(Source: [6])
As indicated by the preparing capacity, satellites can be
delegated twisted pipe satellites and on-board preparing
(OBP) satellites [4]. Twisted pipe satellites are physical
layer gadgets and they are essentially flag repeaters in the
sky. The signs gotten on the satellite uplink are enhanced
and communicated at an alternate recurrence on the
downlink. Further developed OBP satellites suit baseband
computerized flag handling, uplink data transmission

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controller and quick parcel exchanging on board. OBP
satellites are connect layer gadgets and they frame a work
arrange topology instead of a star topology as in the bowed
pipe satellite systems [12]. Satellite and terminal versatility
joined with radio wave blurring because of territory (e.g.
burrows, mountains, foliage) likewise add to the satellite
connection mistakes.
Figure 1: DAMA delays for TCP connections
(Source: [5])
For this situation, the new association is set up with new
AP. WiMAX standard is alluded to IEEE 802.16 and
helping in offering broadband remote access to various
clients and association [13]. This design helps in
interconnecting diverse base stations in both in point to
point mode in work mode. Bluetooth is another specially
appointed standard that aides in exchanging records and
information inside a short range. The engineering is
distributed association between tow gadgets inside
terminals. It is viewed as IEEE 802.15.
III. METHODOLOGY
The initial phase in recognizing the last reconciliation
design for conventions has been finished utilizing basic
investigation of the necessities of the last system. Data
collection has been an important section of the research.
Data has been collected from various online journals,
books, articles and governmental databases. Therefore,
secondary method of data collection method has been used.
Qualitative approach has been used in the research study.
Statistical experimental analysis method has been selected
in the study. A new architecture has been proposed for
designing the satellite communication in the wireless
communication. The testing part of the architecture has
been discussed in the next section.
This research relies upon compromise of satellite
frameworks and terrestrial remote frameworks. The
guideline purpose of research paper has been exploring
hybrid structures for fusing satellites with existing natural
remote correspondences. This research will help in
separating a couple of answers for taking care of creamer
systems of remote access sorting out including WLAN and
second and third time of Mobile Networks. The proposed
outcome has been positive in order to optimize routing
protocol for broadband hybrid satellite communication IP
network system.
B. SIMULATION
The Network Simulator 2 (NS2) package has been designed
in the frame of VINT Project for analyzing behavior of
protocol in the wired network. However, software modules
have been included for extending the analysis of the
wireless and satellite networks. NS-2 is an object oriented
simulator, written in C++, with an OTCL (Object Tool
Command Language) interpreter as a front-end. The
simulator has been supporting a class hierarchy in C++, and
a similar class hierarchy within the OTCL interpreter.
There have been different effects of the DBA algorithm as
shown in figure below and different data has been found in
the system.
Figure 3: DVB-RCS DAMA: Divergent TCP round trip
time
(Source: [9])
Figure 4: NS2 link structure
(Source: [11])
The above figure describes that at time 20 s the handover
towards the second link happens, with a new throughput of
1 Mbit/s and a propagation delay of 520 ms. However, at
120 s, there is the handover to first link. At 150 s, simulator
ends. TCP Reno has general problems during transition and
has less impact on handover at connection time of 20s. IT
has been worst at 120 s as buffer time is very large.

Figure 5: IP VSAT Satellite WAN network
(Source: [12])
The hidden rollout of broadband settled access (propelled
endorser line [xDSL] connector then again broadband
remote access [BWA]) was moderate, likewise, satellite
could fill the speed to promote strength in a couple of
zones. In any case, also in like manner with GSM, in most
made countries natural rollout has by and by compensated
for lost time with demand, and satellite is relegated to
countries with troublesome geographies and to an
extraordinary degree rural domains [3]. In this way, there is
reduced blockage, and less terrestrial repeaters are required.
In any case, LEO/MEO will go onto scene in more drawn
out term in view of openness of refined close to nothing (a
few kilograms) satellites with more affordable expenses for
age and driving.
IV. RESULTS AND DISCUSSION
This research focused on the performance of routing
algorithm in the broadband hybrid satellite communication
system. The proposed algorithm has been built on NS 2
version 2.34 simulation platform. A multichannel arbitrary
access convention called FMCSA is proposed in this paper.
FMCSA joins irregular access with bundle level forward
mistake revision coding for new messages and booked
retransmissions for in part got messages. Through
investigation and reproductions, we demonstrate that
FMCSA can accomplish higher throughput and lower
delay. In the third issue, we lead a limit and execution
examine for intelligent information benefits in remote
access systems. We assess the execution of a few MAC
conventions, for example, opened Aloha, static TDMA,
Aloha/intermittent stream and consolidated free interest
task various access utilizing reasonable web activity
models.
Figure 6: End-to-end delay against a route length
allowed
(Source:
In view of the execution assessment, we propose a new
MAC convention. Our new MAC convention called
CPFDAMA investigates the connection between forward
channel information bundles and turn around channel
affirmation bundles. CPFDAMA joined with RWBP in the
vehicle layer outflanks the proposed conventions in term of
both channel use and page reaction time. In general, we
address the Internet access in satellite systems from a
framework point of view. Our work can be utilized to
enhance the execution of current frameworks, it likewise
can be utilized to plan cutting edge satellite systems.
V. CONCLUSION
This paper will help in extending answers for a satellite
systems in light of DVB-S/RCS tradition stack. The
purpose of study is to separate dependence of terrestrial
remote correspondence on satellite correspondence. This
investigation will look at about future ways and systems
restricting challenges in media transmission part. This
investigation will help in separating challenges related with
coordination of satellite structures in terrestrial remote
correspondence frameworks. The destiny of the media
transmission will be discovered from the aftereffects of
study.
VI. REFERENCES
[1] Casoni, M., Grazia, C.A., Klapez, M., Patriciello,
N., Amditis, A. and Sdongos, E., 2015. Integration of
satellite and LTE for disaster recovery. IEEE
Communications Magazine, 53(3), pp.47-53.
[2] Jia, M., Gu, X., Guo, Q., Xiang, W. and Zhang,
N., 2016. Broadband hybrid satellite-terrestrial
communication systems based on cognitive radio toward
5G. IEEE Wireless Communications, 23(6), pp.96-106.
[3] Bertaux, L., Medjiah, S., Berthou, P., Abdellatif,
S., Hakiri, A., Gelard, P., Planchou, F. and Bruyere, M.,
2015. Software defined networking and virtualization for

broadband satellite networks. IEEE Communications
Magazine, 53(3), pp.54-60.
[4] An, K., Lin, M., Zhu, W.P., Huang, Y. and
Zheng, G., 2016. Outage performance of cognitive hybrid
satellite–terrestrial networks with interference constraint.
IEEE Transactions on Vehicular Technology, 65(11),
pp.9397-9404.
[5] Zhang, N., Zhang, S., Yang, P., Alhussein, O.,
Zhuang, W. and Shen, X.S., 2017. Software defined space-
air-ground integrated vehicular networks: Challenges and
solutions. IEEE Communications Magazine, 55(7), pp.101-
109.
[6] An, K., Lin, M., Liang, T., Wang, J.B., Wang, J.,
Huang, Y. and Swindlehurst, A.L., 2015. Performance
analysis of multi-antenna hybrid satellite-terrestrial relay
networks in the presence of interference. IEEE
Transactions on Communications, 63(11), pp.4390-4404.
[7] Grazia, C.A., Klapez, M., Patriciello, N., Casoni,
M., Amditis, A., Sdongos, E., Gierszal, H., Kanakidis, D.,
Katsigiannis, C., Romanowski, K. and Simplício, P., 2014,
October. Integration between terrestrial and satellite
networks: the PPDR-TC vision. In Wireless and Mobile
Computing, Networking and Communications (WiMob),
2014 IEEE 10th International Conference on (pp. 77-84).
IEEE.
[8] Niephaus, C., Kretschmer, M. and Ghinea, G.,
2016. QoS provisioning in converged satellite and
terrestrial networks: A survey of the state-of-the-art. IEEE
Communications Surveys & Tutorials, 18(4), pp.2415-
2441.
[9] Ojha, T., Misra, S. and Raghuwanshi, N.S., 2015.
Wireless sensor networks for agriculture: The state-of-the-
art in practice and future challenges. Computers and
Electronics in Agriculture, 118, pp.66-84.
[10] An, K., Ouyang, J., Lin, M. and Liang, T., 2015.
Outage analysis of multi-antenna cognitive hybrid satellite-
terrestrial relay networks with beamforming. IEEE
Communications Letters, 19(7), pp.1157-1160.
[11] Bertaux, L., Medjiah, S., Berthou, P., Abdellatif,
S., Hakiri, A., Gelard, P., Planchou, F. and Bruyere, M.,
2015. Software defined networking and virtualization for
broadband satellite networks. IEEE Communications
Magazine, 53(3), pp.54-60.
[12] Casoni, M., Grazia, C.A., Klapez, M., Patriciello,
N., Amditis, A. and Sdongos, E., 2015. Integration of
satellite and LTE for disaster recovery. IEEE
Communications Magazine, 53(3), pp.47-53.
[13] Chandrasekharan, S., Gomez, K., Al-Hourani, A.,
Kandeepan, S., Rasheed, T., Goratti, L., Reynaud, L.,
Grace, D., Bucaille, I., Wirth, T. and Allsopp, S., 2016.
Designing and implementing future aerial communication
networks. IEEE Communications Magazine, 54(5), pp.26-
34.
[14] Jia, M., Gu, X., Guo, Q., Xiang, W. and Zhang,
N., 2016. Broadband hybrid satellite-terrestrial
communication systems based on cognitive radio toward
5G. IEEE Wireless Communications, 23(6), pp.96-106.