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Toward 100 Gbps wireless networks enabled by millimeter wave traveling wave tubes

Research output: Contribution to conference - Without ISBN/ISSN Conference paperpeer-review

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Toward 100 Gbps wireless networks enabled by millimeter wave traveling wave tubes. / Paoloni, Claudio; Letizia, Rosa; Krozer, Viktor et al.
2018. Paper presented at International Vacuum Electronics Conference 2018, Monterey, United States.

Research output: Contribution to conference - Without ISBN/ISSN Conference paperpeer-review

Harvard

Paoloni, C, Letizia, R, Krozer, V, Marilier, M, Boppel, S, Ramirez, A & Vidal, B 2018, 'Toward 100 Gbps wireless networks enabled by millimeter wave traveling wave tubes', Paper presented at International Vacuum Electronics Conference 2018, Monterey, United States, 24/04/18 - 26/04/18.

APA

Paoloni, C., Letizia, R., Krozer, V., Marilier, M., Boppel, S., Ramirez, A., & Vidal, B. (2018). Toward 100 Gbps wireless networks enabled by millimeter wave traveling wave tubes. Paper presented at International Vacuum Electronics Conference 2018, Monterey, United States.

Vancouver

Paoloni C, Letizia R, Krozer V, Marilier M, Boppel S, Ramirez A et al.. Toward 100 Gbps wireless networks enabled by millimeter wave traveling wave tubes. 2018. Paper presented at International Vacuum Electronics Conference 2018, Monterey, United States.

Author

Paoloni, Claudio ; Letizia, Rosa ; Krozer, Viktor et al. / Toward 100 Gbps wireless networks enabled by millimeter wave traveling wave tubes. Paper presented at International Vacuum Electronics Conference 2018, Monterey, United States.

Bibtex

@conference{f000be18629b4d32a07651d97c95b134,
title = "Toward 100 Gbps wireless networks enabled by millimeter wave traveling wave tubes",
abstract = "New generation networks for 5G need a breakthrough to support the unstoppable increase of internet traffic. Millimeter waves offer multi-GHz bandwidth for multigigabit per second data rate. For the full exploitation of the millimeter wave spectrum, due to the high atmosphere attenuation, high transmission power is needed, not available by solid state devices. Traveling wave tubes are the only enabling devices to create ultracapacity layers to distribute data with data rate at fiber level over wide areas. This paper presents the aims of a new European Commission Horizon 2020 project, ULTRAWAVE, to create for the first time a data layer with area capacity toward 100 Gbps/km2, combining D-band and G-band internet distribution enabled by millimeter wave traveling wave tubes.",
author = "Claudio Paoloni and Rosa Letizia and Viktor Krozer and Marc Marilier and Sebastian Boppel and Antonio Ramirez and Borja Vidal",
year = "2018",
month = apr,
day = "24",
language = "English",
note = "International Vacuum Electronics Conference 2018, IVEC2018 ; Conference date: 24-04-2018 Through 26-04-2018",
url = "http://www.ivec2018.org",

}

RIS

TY - CONF

T1 - Toward 100 Gbps wireless networks enabled by millimeter wave traveling wave tubes

AU - Paoloni, Claudio

AU - Letizia, Rosa

AU - Krozer, Viktor

AU - Marilier, Marc

AU - Boppel, Sebastian

AU - Ramirez, Antonio

AU - Vidal, Borja

PY - 2018/4/24

Y1 - 2018/4/24

N2 - New generation networks for 5G need a breakthrough to support the unstoppable increase of internet traffic. Millimeter waves offer multi-GHz bandwidth for multigigabit per second data rate. For the full exploitation of the millimeter wave spectrum, due to the high atmosphere attenuation, high transmission power is needed, not available by solid state devices. Traveling wave tubes are the only enabling devices to create ultracapacity layers to distribute data with data rate at fiber level over wide areas. This paper presents the aims of a new European Commission Horizon 2020 project, ULTRAWAVE, to create for the first time a data layer with area capacity toward 100 Gbps/km2, combining D-band and G-band internet distribution enabled by millimeter wave traveling wave tubes.

AB - New generation networks for 5G need a breakthrough to support the unstoppable increase of internet traffic. Millimeter waves offer multi-GHz bandwidth for multigigabit per second data rate. For the full exploitation of the millimeter wave spectrum, due to the high atmosphere attenuation, high transmission power is needed, not available by solid state devices. Traveling wave tubes are the only enabling devices to create ultracapacity layers to distribute data with data rate at fiber level over wide areas. This paper presents the aims of a new European Commission Horizon 2020 project, ULTRAWAVE, to create for the first time a data layer with area capacity toward 100 Gbps/km2, combining D-band and G-band internet distribution enabled by millimeter wave traveling wave tubes.

M3 - Conference paper

T2 - International Vacuum Electronics Conference 2018

Y2 - 24 April 2018 through 26 April 2018

ER -