Publication detail

Transmission Power Optimization in Live 3GPP LTE-A Indoor Deployment

MAŠEK, P. SLABICKI, M. HOŠEK, J. GROCHLA, K.

Original Title

Transmission Power Optimization in Live 3GPP LTE-A Indoor Deployment

Czech Title

Optimalizace vysílacího výkonu v experimentální 3GPP LTE-A mobilní síti

English Title

Transmission Power Optimization in Live 3GPP LTE-A Indoor Deployment

Type

conference paper

Language

en

Original Abstract

As demand for mobile broadband grows, the need for greater indoor coverage and capacity becomes more urgent as the ubiquitous connection to the Internet is mentioned very often. Complementing macro capacity, small cells (femto-, pico-cells) offer a cost-effective way to meet this demand for complex indoor areas. Inspired by this increasing demand, we provide in this paper a comprehensive summary on our live trial of transmission power optimization within the full-featured 3GPP LTE-A indoor deployment. To deliver a comprehensive view on the configuration of TX power, we perform an evaluation between our previous results provided by our implemented PyLTEs software and our optimized configuration. In order to deliver a complete picture, the obtained data from simulator is complemented with the real measurement in LTE-A indoor deployment. Our findings show that performed changes lead to improved of all measured networks parameters as latency, RSRP, RSRQ, and RSSI. On top of this, the discussed changes are not bonded with the particular LTE deployment – therefore, the utilization is not restricted and can be implemented in various indoor LTE deployments.

Czech abstract

As demand for mobile broadband grows, the need for greater indoor coverage and capacity becomes more urgent as the ubiquitous connection to the Internet is mentioned very often. Complementing macro capacity, small cells (femto-, pico-cells) offer a cost-effective way to meet this demand for complex indoor areas. Inspired by this increasing demand, we provide in this paper a comprehensive summary on our live trial of transmission power optimization within the full-featured 3GPP LTE-A indoor deployment. To deliver a comprehensive view on the configuration of TX power, we perform an evaluation between our previous results provided by our implemented PyLTEs software and our optimized configuration. In order to deliver a complete picture, the obtained data from simulator is complemented with the real measurement in LTE-A indoor deployment. Our findings show that performed changes lead to improved of all measured networks parameters as latency, RSRP, RSRQ, and RSSI. On top of this, the discussed changes are not bonded with the particular LTE deployment – therefore, the utilization is not restricted and can be implemented in various indoor LTE deployments.

English abstract

As demand for mobile broadband grows, the need for greater indoor coverage and capacity becomes more urgent as the ubiquitous connection to the Internet is mentioned very often. Complementing macro capacity, small cells (femto-, pico-cells) offer a cost-effective way to meet this demand for complex indoor areas. Inspired by this increasing demand, we provide in this paper a comprehensive summary on our live trial of transmission power optimization within the full-featured 3GPP LTE-A indoor deployment. To deliver a comprehensive view on the configuration of TX power, we perform an evaluation between our previous results provided by our implemented PyLTEs software and our optimized configuration. In order to deliver a complete picture, the obtained data from simulator is complemented with the real measurement in LTE-A indoor deployment. Our findings show that performed changes lead to improved of all measured networks parameters as latency, RSRP, RSRQ, and RSSI. On top of this, the discussed changes are not bonded with the particular LTE deployment – therefore, the utilization is not restricted and can be implemented in various indoor LTE deployments.

Keywords

3GPP LTE-A, Cellular network, Indoor deployment, TX power

Released

20.10.2016

Location

Lisabon

ISBN

978-1-4673-8817-7

Book

2016 8th International Congress on Ultra Modern Telecommunications and Control Systems and Workshops (ICUMT)

Pages from

129

Pages to

135

Pages count

7

BibTex


@inproceedings{BUT129133,
  author="Pavel {Mašek} and Mariusz {Slabicki} and Jiří {Hošek} and Krzysztof {Grochla}",
  title="Transmission Power Optimization in Live 3GPP LTE-A Indoor Deployment",
  annote="As demand for mobile broadband grows, the need for greater indoor coverage and capacity becomes more urgent as the ubiquitous connection to the Internet is mentioned very often. Complementing macro capacity, small cells (femto-, pico-cells) offer a cost-effective way to meet this demand for complex indoor areas. Inspired by this increasing demand, we provide in this paper a comprehensive summary on our live trial of transmission
power optimization within the full-featured 3GPP LTE-A indoor deployment. To deliver a comprehensive view on the configuration of TX power, we perform an evaluation between our previous results provided by our implemented PyLTEs software and our optimized configuration. In order to deliver a complete picture,
the obtained data from simulator is complemented with the real measurement in LTE-A indoor deployment. Our findings show that performed changes lead to improved of all measured networks parameters as latency, RSRP, RSRQ, and RSSI. On top of this, the discussed changes are not bonded with the particular LTE deployment – therefore, the utilization is not restricted and can be implemented in various indoor LTE deployments.",
  booktitle="2016 8th International Congress on Ultra Modern Telecommunications and Control Systems and Workshops (ICUMT)",
  chapter="129133",
  howpublished="electronic, physical medium",
  year="2016",
  month="october",
  pages="129--135",
  type="conference paper"
}