INTERFERENCE ANALYSIS BETWEEN HAPS MOBILE SERVICE WITH IMT-2020 (5G) NETWORK ON 700 MHZ
Advances in telecommunications technology, especially in the cellular sector with great importance because of the need to develop and exchange data quickly, easily and mobile. At this time, cellular technology in Indonesia is currently entering the 4G era (Fourth Generation) where the first stage...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/52303 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Advances in telecommunications technology, especially in the cellular sector with
great importance because of the need to develop and exchange data quickly, easily
and mobile. At this time, cellular technology in Indonesia is currently entering the
4G era (Fourth Generation) where the first stage 4G LTE (Long-Term Evolution)
broadband network in Indonesia has been implemented in the 900 MHz frequency
band at the end of 2014 and will be seen at the stage Second, in the 1800 MHz
frequency band in the first quarter of 2015. Even though telecommunications
technology is developing rapidly, there are still challenges to the increasing
demand for data access speeds along with the reliability of services where even 4G
technology cannot meet and this has spurred research on the latest technology to
meet those needs. The 5G network itself is known as IMT-2020.
The emergence of High Altitude Platform Station (HAPS) technology is expected to
be one of the alternative solutions offered to support the spread of broadband
penetration in Indonesia, especially for Rural, outermost and disadvantaged areas.
The development of HAPS itself in the last few years has evolved very rapidly and
gave birth to a new technology intended for terrestrial networks called HAPS as
IMT Base Station (HIBS) or better known as HAPS Mobile Service (HMS).
A separate challenge arises regarding the integration between HAPS Mobile
Service and terrestrial networks, especially the 5G network, in its implementation
in the 700 MHz frequency band. Therefore, the authors conducted a study in the
form of an analysis of HAPS Mobile Service interference to the 5G terrestrial
network on the 700 MHz frequency band based on the WRC-19 decision in Article
iv
No. 5.313A. In this study, network modeling will be carried out based on the
proposed scenario and the calculation of potential interference and will be further
analyzed in more depth and presented in the form of a MATLAB® performance
curve so that the separation distance minimum can be found so that interference
does not occur in the Urban area. Dense Urban, and Rural.
Based on the results of calculations and the results of the ????/???? performance curve
on HAPS Mobile Service interference to BS, using ???????? = 1 km, in the Urban and
Dense Urban area interference occurs along the track being tested. Meanwhile, in
the Rural area, interference occurs at a distance of 5 km. For ???????? = 2.75 km, in the
Urban area interference occurs at a distance of 8 km. In the Dense Urban area,
interference occurs at a distance of 12 km. As for the Rural area, there was no
interference along the track being tested. For ???????? = 3.5 km, in the Urban, Dense
Urban and Rural areas there is no interference along the track being tested.
As for the calculation results and the results of the ????/???? performance curve on HAPS
Mobile Service interference to MS, using ????? = 1 km, in the Urban area and the
Dense Urban area there is interference along the track being tested. Whereas in
the Rural area, interference occurs at a distance of 4 km. For ????? = 2.75 km, in the
Urban area interference occurs at a distance of 4.5 km. In the Dense Urban area,
interference occurs at a distance of 8 km. As for the Rural area, there was no
interference along the track being tested. For ????? = 3.5 km, in the Urban area
interference occurs at a distance of 11 km. In the Dense Urban area, interference
occurs at a distance of 20 km. As for the Rural area, there was no interference along
the track being tested |
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