The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
Copyrights notice
The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
본 논문은 39GHz 대역에서 실시한 실외 실험 결과를 제시한다. 특히 5세대 이동통신(1G) 이상 등 이동통신을 가정해 1km가 넘는 전송거리에서 6Gbit/s 이상의 처리량을 달성하는 데 중점을 두고 실험을 진행하고 있다. 데이터 속도와 용량을 향상시키기 위해 모바일 통신에 5GHz 이상의 고주파 대역을 사용하는 것은 39G 이상에서 새롭고 중요한 기술적 과제입니다. 더 높은 주파수 대역의 이점을 다양한 시나리오로 확장하려면 더 높은 주파수 대역이 기본적으로 기존 낮은 주파수 대역의 적용 범위 수준과 일치하도록 하는 것이 중요합니다. 또한, 이동통신에서는 이동성이 중요합니다. 따라서 우리는 5GHz 대역을 2.14G 이후의 후보 주파수로 가정하고 렌즈 안테나와 빔 추적 기술을 활용하는 실험 장비를 준비합니다. 실험에서 우리는 1850m의 전송 거리에서 1.58Gbit/s의 처리량 값을 달성하고 20km/h 이동성에서 39Gbit/s의 처리량 값을 달성했습니다. 또한, 비가시선 조건에서도 높은 처리량을 달성할 수 있는 가능성을 보여줍니다. 이러한 실험 결과는 1GHz 대역이 초당 기가비트 수준의 데이터 전송률을 지원할 수 있는 잠재력을 명확히 하는 동시에 XNUMXkm가 넘는 거리의 커버리지 영역에서 커버리지를 제공하고 이동성을 지원하는 데 도움이 됩니다.
Masashi IWABUCHI
NTT DOCOMO, INC.
Anass BENJEBBOUR
NTT DOCOMO, INC.
Yoshihisa KISHIYAMA
NTT DOCOMO, INC.
Guangmei REN
HUAWEI TECHNOLOGIES CO., LTD.
Chen TANG
HUAWEI TECHNOLOGIES CO., LTD.
Tingjian TIAN
HUAWEI TECHNOLOGIES CO., LTD.
Liang GU
HUAWEI TECHNOLOGIES CO., LTD.
Yang CUI
HUAWEI TECHNOLOGIES JAPAN K.K
Terufumi TAKADA
HUAWEI TECHNOLOGIES JAPAN K.K
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Masashi IWABUCHI, Anass BENJEBBOUR, Yoshihisa KISHIYAMA, Guangmei REN, Chen TANG, Tingjian TIAN, Liang GU, Yang CUI, Terufumi TAKADA, "Outdoor Experiments on Long-Range and Mobile Communications Using 39-GHz Band for 5G and Beyond" in IEICE TRANSACTIONS on Communications,
vol. E102-B, no. 8, pp. 1437-1446, August 2019, doi: 10.1587/transcom.2018TTP0015.
Abstract: This paper presents results of outdoor experiments conducted in the 39-GHz band. In particular, assuming mobile communications such as the fifth generation mobile communications (5G) and beyond, we focus on achieving 1Gbit/s or greater throughput at transmission distances exceeding 1km in the experiments. In order to enhance the data rate and capacity, the use of higher frequency bands above 6GHz for mobile communications is a new and important technical challenge for 5G and beyond. To extend further the benefits of higher frequency bands to various scenarios, it is important to enable higher frequency bands to basically match the coverage levels of existing low frequency bands. Moreover, mobility is important in mobile communications. Therefore, we assume the 39-GHz band as a candidate frequency for 5G and beyond and prepare experimental equipment that utilizes lens antenna and beam tracking technologies. In the experiments, we achieve the throughput values of 2.14Gbit/s at the transmission distance of 1850m and 1.58Gbit/s at 20-km/h mobility. Furthermore, we show the possibility of achieving high throughput even under non-line-of-sight conditions. These experimental results contribute to clarifying the potential for the 39-GHz band to support gigabit-per-second class data rates while still providing coverage and supporting mobility over a coverage area with distance greater than 1km.
URL: https://global.ieice.org/en_transactions/communications/10.1587/transcom.2018TTP0015/_p
부
@ARTICLE{e102-b_8_1437,
author={Masashi IWABUCHI, Anass BENJEBBOUR, Yoshihisa KISHIYAMA, Guangmei REN, Chen TANG, Tingjian TIAN, Liang GU, Yang CUI, Terufumi TAKADA, },
journal={IEICE TRANSACTIONS on Communications},
title={Outdoor Experiments on Long-Range and Mobile Communications Using 39-GHz Band for 5G and Beyond},
year={2019},
volume={E102-B},
number={8},
pages={1437-1446},
abstract={This paper presents results of outdoor experiments conducted in the 39-GHz band. In particular, assuming mobile communications such as the fifth generation mobile communications (5G) and beyond, we focus on achieving 1Gbit/s or greater throughput at transmission distances exceeding 1km in the experiments. In order to enhance the data rate and capacity, the use of higher frequency bands above 6GHz for mobile communications is a new and important technical challenge for 5G and beyond. To extend further the benefits of higher frequency bands to various scenarios, it is important to enable higher frequency bands to basically match the coverage levels of existing low frequency bands. Moreover, mobility is important in mobile communications. Therefore, we assume the 39-GHz band as a candidate frequency for 5G and beyond and prepare experimental equipment that utilizes lens antenna and beam tracking technologies. In the experiments, we achieve the throughput values of 2.14Gbit/s at the transmission distance of 1850m and 1.58Gbit/s at 20-km/h mobility. Furthermore, we show the possibility of achieving high throughput even under non-line-of-sight conditions. These experimental results contribute to clarifying the potential for the 39-GHz band to support gigabit-per-second class data rates while still providing coverage and supporting mobility over a coverage area with distance greater than 1km.},
keywords={},
doi={10.1587/transcom.2018TTP0015},
ISSN={1745-1345},
month={August},}
부
TY - JOUR
TI - Outdoor Experiments on Long-Range and Mobile Communications Using 39-GHz Band for 5G and Beyond
T2 - IEICE TRANSACTIONS on Communications
SP - 1437
EP - 1446
AU - Masashi IWABUCHI
AU - Anass BENJEBBOUR
AU - Yoshihisa KISHIYAMA
AU - Guangmei REN
AU - Chen TANG
AU - Tingjian TIAN
AU - Liang GU
AU - Yang CUI
AU - Terufumi TAKADA
PY - 2019
DO - 10.1587/transcom.2018TTP0015
JO - IEICE TRANSACTIONS on Communications
SN - 1745-1345
VL - E102-B
IS - 8
JA - IEICE TRANSACTIONS on Communications
Y1 - August 2019
AB - This paper presents results of outdoor experiments conducted in the 39-GHz band. In particular, assuming mobile communications such as the fifth generation mobile communications (5G) and beyond, we focus on achieving 1Gbit/s or greater throughput at transmission distances exceeding 1km in the experiments. In order to enhance the data rate and capacity, the use of higher frequency bands above 6GHz for mobile communications is a new and important technical challenge for 5G and beyond. To extend further the benefits of higher frequency bands to various scenarios, it is important to enable higher frequency bands to basically match the coverage levels of existing low frequency bands. Moreover, mobility is important in mobile communications. Therefore, we assume the 39-GHz band as a candidate frequency for 5G and beyond and prepare experimental equipment that utilizes lens antenna and beam tracking technologies. In the experiments, we achieve the throughput values of 2.14Gbit/s at the transmission distance of 1850m and 1.58Gbit/s at 20-km/h mobility. Furthermore, we show the possibility of achieving high throughput even under non-line-of-sight conditions. These experimental results contribute to clarifying the potential for the 39-GHz band to support gigabit-per-second class data rates while still providing coverage and supporting mobility over a coverage area with distance greater than 1km.
ER -