Millimeter wave channel modeling – present development and challenges in tropical areas
Millimeter wave is the key enablers for modern wireless applications. The Utilization of millimeter wave technology becomes a key factor in solving the problem of bandwidth shortage. Millimeter wave leads to delivering much higher throughput, faster data rate, and capacity. However, it is still...
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2018
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| Online Access: | http://irep.iium.edu.my/67952/7/67952%20Millimeter%20Wave%20Channel%20Modeling.pdf http://irep.iium.edu.my/67952/13/67952_Millimeter%20wave%20channel%20modeling_SCOPUS.pdf http://irep.iium.edu.my/67952/ https://ieeexplore.ieee.org/document/8539324 |
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my.iium.irep.679522019-01-15T00:59:20Z http://irep.iium.edu.my/67952/ Millimeter wave channel modeling – present development and challenges in tropical areas Budalal, Asma. Ali H. Islam, Md. Rafiqul Habaebi, Mohamed Hadi Abd Rahman, Tharek TK5101 Telecommunication. Including telegraphy, radio, radar, television Millimeter wave is the key enablers for modern wireless applications. The Utilization of millimeter wave technology becomes a key factor in solving the problem of bandwidth shortage. Millimeter wave leads to delivering much higher throughput, faster data rate, and capacity. However, it is still facing some technical challenges’. The main objective of this paper is to identify research challenges in the mm-wave channel and activities on modeling. A brief analysis of rain fading was presented based on simultaneously measurement of one-minute rain rate and its effects on a short experimental link of 38 GHz and rain fade is observed as high as 15 dB for 300 m path at about 125 mm/hr rain intensity. Hence rain attenuation at 0.001 % and 0.01% of outages must be considered for 38 GHz. The statistical spatial channel mode simulation software was utilized for an operating frequency of 38 GHz. To observe the received power and path loss, power delay profile (PDP) was generated. The omnidirectional and directional received power and path loss have been estimated using environmental parameters of Kuala Lumpur city which illustrates the theoretical performances of 5G in Malaysia. As the receiver moves from line-of-sight (LOS) to non-line-of-sight (NLOS) scenarios, a drop of 33.1 dB omnidirectional power is found. IEEE 2018-11 Conference or Workshop Item PeerReviewed application/pdf en http://irep.iium.edu.my/67952/7/67952%20Millimeter%20Wave%20Channel%20Modeling.pdf application/pdf en http://irep.iium.edu.my/67952/13/67952_Millimeter%20wave%20channel%20modeling_SCOPUS.pdf Budalal, Asma. Ali H. and Islam, Md. Rafiqul and Habaebi, Mohamed Hadi and Abd Rahman, Tharek (2018) Millimeter wave channel modeling – present development and challenges in tropical areas. In: 2018 7th International Conference on Computer Communication Engineering (ICCCE2018), 19th-20th September 2018, Kuala Lumpur. https://ieeexplore.ieee.org/document/8539324 10.1109/ICCCE.2018.8539324 |
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Malaysia |
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English English |
| topic |
TK5101 Telecommunication. Including telegraphy, radio, radar, television |
| spellingShingle |
TK5101 Telecommunication. Including telegraphy, radio, radar, television Budalal, Asma. Ali H. Islam, Md. Rafiqul Habaebi, Mohamed Hadi Abd Rahman, Tharek Millimeter wave channel modeling – present development and challenges in tropical areas |
| description |
Millimeter wave is the key enablers for modern
wireless applications. The Utilization of millimeter wave
technology becomes a key factor in solving the problem of
bandwidth shortage. Millimeter wave leads to delivering much
higher throughput, faster data rate, and capacity. However, it is
still facing some technical challenges’. The main objective of this
paper is to identify research challenges in the mm-wave channel
and activities on modeling. A brief analysis of rain fading was
presented based on simultaneously measurement of one-minute
rain rate and its effects on a short experimental link of 38 GHz
and rain fade is observed as high as 15 dB for 300 m path at
about 125 mm/hr rain intensity. Hence rain attenuation at 0.001
% and 0.01% of outages must be considered for 38 GHz. The
statistical spatial channel mode simulation software was utilized
for an operating frequency of 38 GHz. To observe the received
power and path loss, power delay profile (PDP) was generated.
The omnidirectional and directional received power and path loss
have been estimated using environmental parameters of Kuala
Lumpur city which illustrates the theoretical performances of 5G
in Malaysia. As the receiver moves from line-of-sight (LOS) to
non-line-of-sight (NLOS) scenarios, a drop of 33.1 dB
omnidirectional power is found. |
| format |
Conference or Workshop Item |
| author |
Budalal, Asma. Ali H. Islam, Md. Rafiqul Habaebi, Mohamed Hadi Abd Rahman, Tharek |
| author_facet |
Budalal, Asma. Ali H. Islam, Md. Rafiqul Habaebi, Mohamed Hadi Abd Rahman, Tharek |
| author_sort |
Budalal, Asma. Ali H. |
| title |
Millimeter wave channel modeling – present
development and challenges in tropical areas |
| title_short |
Millimeter wave channel modeling – present
development and challenges in tropical areas |
| title_full |
Millimeter wave channel modeling – present
development and challenges in tropical areas |
| title_fullStr |
Millimeter wave channel modeling – present
development and challenges in tropical areas |
| title_full_unstemmed |
Millimeter wave channel modeling – present
development and challenges in tropical areas |
| title_sort |
millimeter wave channel modeling – present
development and challenges in tropical areas |
| publisher |
IEEE |
| publishDate |
2018 |
| url |
http://irep.iium.edu.my/67952/7/67952%20Millimeter%20Wave%20Channel%20Modeling.pdf http://irep.iium.edu.my/67952/13/67952_Millimeter%20wave%20channel%20modeling_SCOPUS.pdf http://irep.iium.edu.my/67952/ https://ieeexplore.ieee.org/document/8539324 |
| _version_ |
1643618550918676480 |