An Energy Efficient Narrowband Internet of Things Radio Base Station

Minör, Karl

An Energy Efficient Narrowband Internet of Things Radio Base Station

Mark

Minör, Karl ^LU (2020) EITM01 20201
Department of Electrical and Information Technology

Abstract: NB-IoT was designed as an add-on to the LTE standard to enable wide area cellular connectivity to low-cost devices to facilitate the rapid growth of the Internet of Things. NB-IoT was found to increase the idle power consumption of the radio unit in an example LTE radio base station by almost 17%, costing the mobile network operator not only money, but also harming the environment through increased CO2 emissions. The objective of this thesis was to identify the reasons for NB-IoT increasing the power consumption in an LTE network, and discovering new methods aiming to mitigate this.
The power consumption increase was identified to be due to the increased mandatory signaling in NB-IoT conflicting with existing power saving features. A... (More); NB-IoT was designed as an add-on to the LTE standard to enable wide area cellular connectivity to low-cost devices to facilitate the rapid growth of the Internet of Things. NB-IoT was found to increase the idle power consumption of the radio unit in an example LTE radio base station by almost 17%, costing the mobile network operator not only money, but also harming the environment through increased CO2 emissions. The objective of this thesis was to identify the reasons for NB-IoT increasing the power consumption in an LTE network, and discovering new methods aiming to mitigate this.
The power consumption increase was identified to be due to the increased mandatory signaling in NB-IoT conflicting with existing power saving features. A major part of the thesis was spent implementing a new method in an Ericsson baseband unit, which was tested in a lab environment. The method reduced the power consumption increase by 50.2% by muting two antenna ports. A second method was investigated which would use multiple carriers and declaring subframes as invalid to retain capacity while reducing power consumption.
It was found that a combination of the two methods could potentially lower the power consumption increase by NB-IoT by up to 74%, which would save an example network in the USA US$2.5 million a year, and lower emissions by 10.9 kilotons of CO2. Further work needs to be done in this area to investigate the impact these power saving features would have on connectivity in a live network. (Less)
Popular Abstract: Narrowband Internet of Things (NB-IoT), designed to be rolled out in existing 4G networks to provide low-cost connectivity to low-complexity IoT devices, was found to increase the power consumption of the radio in an empty cell by 17%. This thesis presents two new methods that can decrease the power consumption enough to save an operator up to US$2.5 million a year.

Please use this url to cite or link to this publication: http://lup.lub.lu.se/student-papers/record/9016688

author

Minör, Karl ^LU

supervisor

Aleksei Fedorov ^LU

organization

Department of Electrical and Information Technology

course

EITM01 20201

year

2020

type

H2 - Master's Degree (Two Years)

subject

Technology and Engineering

report number

LU/LTH-EIT 2020-762

language

English

id

9016688

date added to LUP

2020-06-26 15:20:15

date last changed

2020-06-26 15:20:15

@misc{9016688,
  abstract     = {{NB-IoT was designed as an add-on to the LTE standard to enable wide area cellular connectivity to low-cost devices to facilitate the rapid growth of the Internet of Things. NB-IoT was found to increase the idle power consumption of the radio unit in an example LTE radio base station by almost 17%, costing the mobile network operator not only money, but also harming the environment through increased CO2 emissions. The objective of this thesis was to identify the reasons for NB-IoT increasing the power consumption in an LTE network, and discovering new methods aiming to mitigate this.
The power consumption increase was identified to be due to the increased mandatory signaling in NB-IoT conflicting with existing power saving features. A major part of the thesis was spent implementing a new method in an Ericsson baseband unit, which was tested in a lab environment. The method reduced the power consumption increase by 50.2% by muting two antenna ports. A second method was investigated which would use multiple carriers and declaring subframes as invalid to retain capacity while reducing power consumption.
It was found that a combination of the two methods could potentially lower the power consumption increase by NB-IoT by up to 74%, which would save an example network in the USA US$2.5 million a year, and lower emissions by 10.9 kilotons of CO2. Further work needs to be done in this area to investigate the impact these power saving features would have on connectivity in a live network.}},
  author       = {{Minör, Karl}},
  language     = {{eng}},
  note         = {{Student Paper}},
  title        = {{An Energy Efficient Narrowband Internet of Things Radio Base Station}},
  year         = {{2020}},
}

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An Energy Efficient Narrowband Internet of Things Radio Base Station