Publication detail

Modeling Transmit Power Reduction for a Typical Cell with Licensed Shared Access Capabilities

MOKROV, E. PONOMARENKO-TIMOFEEV, A. GUDKOVA, I. MAŠEK, P. HOŠEK, J. ANDREEV, S. KOUCHERYAVY, Y. GAIDAMAKA, Y.

Original Title

Modeling Transmit Power Reduction for a Typical Cell with Licensed Shared Access Capabilities

English Title

Modeling Transmit Power Reduction for a Typical Cell with Licensed Shared Access Capabilities

Type

journal article in Web of Science

Language

en

Original Abstract

Currently, there is a strong demand to augment capacity of mobile cellular deployments as dictated by advanced bandwidth-hungry applications and services. Network densification and the use of millimeter-wave frequencies develop as the mainstream solutions in fifth-generation (5G) systems, but both suffer from increased complexity and cost. A viable alternative is based on the Licensed Shared Access (LSA) framework that manages spectrum sharing between a limited number of participants. However, interference produced by the current user of the spectrum (the mobile operator) toward its owner (the incumbent) has to be carefully controlled and a number of LSA policies thus emerge. A feasible policy is to reduce the transmit power of the user equipment served by the mobile operator on the LSA bands whenever requested by the incumbent. This work contributes a novel mathematical analysis of the said LSA policy in a challenging scenario that features a highly-dynamic incumbent (the airport), as well as verifies the findings with more detailed system-level simulations. The proposed results constitute a tight estimate on the practical system operation.

English abstract

Currently, there is a strong demand to augment capacity of mobile cellular deployments as dictated by advanced bandwidth-hungry applications and services. Network densification and the use of millimeter-wave frequencies develop as the mainstream solutions in fifth-generation (5G) systems, but both suffer from increased complexity and cost. A viable alternative is based on the Licensed Shared Access (LSA) framework that manages spectrum sharing between a limited number of participants. However, interference produced by the current user of the spectrum (the mobile operator) toward its owner (the incumbent) has to be carefully controlled and a number of LSA policies thus emerge. A feasible policy is to reduce the transmit power of the user equipment served by the mobile operator on the LSA bands whenever requested by the incumbent. This work contributes a novel mathematical analysis of the said LSA policy in a challenging scenario that features a highly-dynamic incumbent (the airport), as well as verifies the findings with more detailed system-level simulations. The proposed results constitute a tight estimate on the practical system operation.

Keywords

LSA, Shared spectrum, Next-generation mobile networks (5G)

Released

29.01.2018

ISBN

0018-9545

Periodical

IEEE TRANSACTIONS ON VEHICULAR TECHNOLOGY

Year of study

99

Number

1

State

US

Pages from

1

Pages to

5

Pages count

5

Documents

BibTex


@article{BUT144841,
  author="Evgeny {Mokrov} and Aleksei {Ponomarenko-Timofeev} and Irina {Gudkova} and Pavel {Mašek} and Jiří {Hošek} and Sergey {Andreev} and Yevgeni {Koucheryavy} and Yuliya {Gaidamaka}",
  title="Modeling Transmit Power Reduction for a Typical Cell with Licensed Shared Access Capabilities",
  annote="Currently, there is a strong demand to augment capacity of mobile cellular deployments as dictated by advanced bandwidth-hungry applications and services. Network densification and the use of millimeter-wave frequencies develop as the mainstream solutions in fifth-generation (5G) systems, but both suffer from increased complexity and cost. A viable alternative is based on the Licensed Shared Access (LSA) framework that manages spectrum sharing between a limited number of participants. However, interference produced by the current user of the spectrum (the mobile operator) toward its owner (the incumbent) has to be carefully controlled and a number of LSA policies thus emerge. A feasible policy is to reduce the transmit power of the user equipment served by the mobile operator on the LSA bands whenever requested by the incumbent. This
work contributes a novel mathematical analysis of the said LSA policy in a challenging scenario that features a highly-dynamic incumbent (the airport), as well as verifies the findings with more detailed system-level simulations. The proposed results constitute a tight estimate on the practical system operation.",
  chapter="144841",
  doi="10.1109/TVT.2018.2799141",
  howpublished="online",
  number="1",
  volume="99",
  year="2018",
  month="january",
  pages="1--5",
  type="journal article in Web of Science"
}