Stochastic geometry analysis of wireless backhaul networks with beamforming in roadside environments is provided. In particular, a new model to analyze antenna gains, interference, and coverage in roadside environments of wireless networks with Poisson point process deployment of BSs is proposed. The received interference from the BSs with wired backhaul (referred to as anchored BS or A-BS) and the coverage probability of a typical BS are analyzed under different approximations of the location of the serving A-BS and combined antenna gains. Considering the beamforming, the coverage probability based on the aggregate interference consisting of the direct interference from the A-BSs and reflected interference from the BSs with wireless backhaul is also derived.
Yuxiang FU
Kyoto University
Koji YAMAMOTO
Kyoto University
Yusuke KODA
Kyoto University
Takayuki NISHIO
Kyoto University
Masahiro MORIKURA
Kyoto University
Chun-hsiang HUANG
NTT Corporation
Yushi SHIRATO
NTT Corporation
Naoki KITA
NTT Corporation
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Yuxiang FU, Koji YAMAMOTO, Yusuke KODA, Takayuki NISHIO, Masahiro MORIKURA, Chun-hsiang HUANG, Yushi SHIRATO, Naoki KITA, "Stochastic Geometry Analysis of Wireless Backhaul Networks with Beamforming in Roadside Environments" in IEICE TRANSACTIONS on Communications,
vol. E104-B, no. 1, pp. 118-127, January 2021, doi: 10.1587/transcom.2020EBP3043.
Abstract: Stochastic geometry analysis of wireless backhaul networks with beamforming in roadside environments is provided. In particular, a new model to analyze antenna gains, interference, and coverage in roadside environments of wireless networks with Poisson point process deployment of BSs is proposed. The received interference from the BSs with wired backhaul (referred to as anchored BS or A-BS) and the coverage probability of a typical BS are analyzed under different approximations of the location of the serving A-BS and combined antenna gains. Considering the beamforming, the coverage probability based on the aggregate interference consisting of the direct interference from the A-BSs and reflected interference from the BSs with wireless backhaul is also derived.
URL: https://global.ieice.org/en_transactions/communications/10.1587/transcom.2020EBP3043/_p
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@ARTICLE{e104-b_1_118,
author={Yuxiang FU, Koji YAMAMOTO, Yusuke KODA, Takayuki NISHIO, Masahiro MORIKURA, Chun-hsiang HUANG, Yushi SHIRATO, Naoki KITA, },
journal={IEICE TRANSACTIONS on Communications},
title={Stochastic Geometry Analysis of Wireless Backhaul Networks with Beamforming in Roadside Environments},
year={2021},
volume={E104-B},
number={1},
pages={118-127},
abstract={Stochastic geometry analysis of wireless backhaul networks with beamforming in roadside environments is provided. In particular, a new model to analyze antenna gains, interference, and coverage in roadside environments of wireless networks with Poisson point process deployment of BSs is proposed. The received interference from the BSs with wired backhaul (referred to as anchored BS or A-BS) and the coverage probability of a typical BS are analyzed under different approximations of the location of the serving A-BS and combined antenna gains. Considering the beamforming, the coverage probability based on the aggregate interference consisting of the direct interference from the A-BSs and reflected interference from the BSs with wireless backhaul is also derived.},
keywords={},
doi={10.1587/transcom.2020EBP3043},
ISSN={1745-1345},
month={January},}
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TY - JOUR
TI - Stochastic Geometry Analysis of Wireless Backhaul Networks with Beamforming in Roadside Environments
T2 - IEICE TRANSACTIONS on Communications
SP - 118
EP - 127
AU - Yuxiang FU
AU - Koji YAMAMOTO
AU - Yusuke KODA
AU - Takayuki NISHIO
AU - Masahiro MORIKURA
AU - Chun-hsiang HUANG
AU - Yushi SHIRATO
AU - Naoki KITA
PY - 2021
DO - 10.1587/transcom.2020EBP3043
JO - IEICE TRANSACTIONS on Communications
SN - 1745-1345
VL - E104-B
IS - 1
JA - IEICE TRANSACTIONS on Communications
Y1 - January 2021
AB - Stochastic geometry analysis of wireless backhaul networks with beamforming in roadside environments is provided. In particular, a new model to analyze antenna gains, interference, and coverage in roadside environments of wireless networks with Poisson point process deployment of BSs is proposed. The received interference from the BSs with wired backhaul (referred to as anchored BS or A-BS) and the coverage probability of a typical BS are analyzed under different approximations of the location of the serving A-BS and combined antenna gains. Considering the beamforming, the coverage probability based on the aggregate interference consisting of the direct interference from the A-BSs and reflected interference from the BSs with wireless backhaul is also derived.
ER -