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Presentation 2024-11-07 15:25
Throughput Improvement Effects of Low Latency and High Capacity Relay Technology in Millimeter Wave Bands for B5G/6G
Ryochi Kataoka, Masahiro Takigawa, Issei Kanno (KDDI Research)
Abstract (in Japanese) (See Japanese page) 
(in English) In Japan, the 5th generation mobile communication system (5G) became commercially available in March 2020. The use of millimeter wave bands such as the 28 GHz band is progressing to realize high speed, high capacity (enhanced Mobile BroadBand: eMBB). In the late 2020s, low latency and high-capacity data transmission over both the up and down links will become important. This is because 5G will be utilized in the late 2020s, and telemedicine and teleoperation using 4K/8K and other high-definition video transmission will become widespread. High-frequency bands such as millimeter wave are effective for high-capacity transmission. This is because high-frequency bands can use a wide bandwidth. However, high-frequency bands have the problem of short communication distances. This is because millimeter waves have high propagation loss and high linearity. Therefore, research and standardization activities for millimeter wave area improvement are underway worldwide. In 3GPP, a relay technology at Layer 3 called Integrated Access and Backhaul (IAB) was standardized in Release 16 to 18. In Release 18, Network-Controlled Repeater (NCR) was standardized as a relay technology at Layer 1. We have been studying low latency relay communication technology in the high frequency band for extending the millimeter wave area for Beyond 5G / 6G. In this paper, we present the results of our evaluation of the effect of our proposed low latency and high capacity relay technology in millimeter-wave band on communication speed by means of ray trace simulation.
Keyword (in Japanese) (See Japanese page) 
(in English) 5G / Beyond 5G / 6G / Millimeter wave band / Relay communication / IAB / NCR / RF Repeater  
Reference Info. ITE Tech. Rep.
Paper #  
Date of Issue  
ISSN Online edition: ISSN 2424-1970
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Conference Information
Committee IEICE-OFT IEICE-OCS IEE-CMN BCT IEICE-CQ  
Conference Date 2024-11-07 - 2024-11-08 
Place (in Japanese) (See Japanese page) 
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Paper Information
Registration To IEICE-CQ 
Conference Code 2024-11-OFT-OCS-CMN-BCT-CQ 
Language Japanese 
Title (in Japanese) (See Japanese page) 
Sub Title (in Japanese) (See Japanese page) 
Title (in English) Throughput Improvement Effects of Low Latency and High Capacity Relay Technology in Millimeter Wave Bands for B5G/6G 
Sub Title (in English)  
Keyword(1) 5G  
Keyword(2) Beyond 5G  
Keyword(3) 6G  
Keyword(4) Millimeter wave band  
Keyword(5) Relay communication  
Keyword(6) IAB  
Keyword(7) NCR  
Keyword(8) RF Repeater  
1st Author's Name Ryochi Kataoka  
1st Author's Affiliation KDDI Research Inc. (KDDI Research)
2nd Author's Name Masahiro Takigawa  
2nd Author's Affiliation KDDI Research Inc. (KDDI Research)
3rd Author's Name Issei Kanno  
3rd Author's Affiliation KDDI Research Inc. (KDDI Research)
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Speaker Author-1 
Date Time 2024-11-07 15:25:00 
Presentation Time 25 minutes 
Registration for IEICE-CQ 
Paper #  
Volume (vol) vol.48 
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