(Source:Telenor Unik/FoU 3-99 brochure)
Source: http://www.spectrum2020.ca/presentations/Rappaport.pdf |
Land area Norway, 385.178 km^2 - 7500 basestasjons http://www.mynewsdesk.com/no/telenor/pressreleases/sjekk-naar-du-faar-4g-der-du-bor-1399662
[Presentation G. Fettweis, IEEE VTC forum Baltimore], http://www.ieeevtc.org/plenaries/vtc2007fall/28.pdf
Results for UMTS (worst case), with 3 sector antenna
View: http://www.eurescom.de/~public-web-deliverables/P900-series/P921/D2/index.html for "live simulation" and "Cell Ranges for GSM1800 and UMTS Services"
(Source: Eurescom P921, D2)
GSM versus UMTS
IMT-Advanced (IMT-A) is often called the 4G standard for Mobile Communications. Both WiMAX through the 802.16e and LTE provide technologies for achieving higher data throughput.
Though LTE was originally designed to work in the
Evolution of radio spectrum, and frequency bands for LTE http://www.radio-electronics.com/info/cellulartelecomms/lte-long-term-evolution/lte-frequency-spectrum.php
11:20 AM -- Four Finnish operators got some Long Term Evolution (LTE 2.6 GHz) and WiMax spectrum for just €3.8 million (US$5.6 million). (See Finland Awards 4G Spectrum.)
Nordic:
Sources: See Craig Goes to Norway, Sweden Awards 4G Spectrum, Swedish 4G, Telenor to Test Huawei LTE, and TeliaSonera: We'll Do 4G in 2010
from: [Norwegian Post Telecommunication Regulator (NPT) http://www.npt.no/portal/page/portal/PG_NPT_NO_NO/PAG_NPT_NO_HOME/PAG_RESSURSER_TEKST?p_d_i=-121&p_d_c=&p_d_v=104880]
The five sub-bands are:
Note: Unpaired is TDD operation, while paired is FDD operation
The total amount will consist of
<green>Q: take the Norwegian population and calculate the licence costs per region</green>
See presentation from Dhananjay Gore, Qualcomm Research, India at COMSNETS 2018
Presentation: Josef Noll, From coverage to quality: building the future network, Femtocells - Building the Quality Network for Mobile Operations - Oslo, 28 Oct 2010
Ayaz Khan Afridi, "Macro and Femto Network Aspects in Realistic LTE Usage Scenarios", Master Thesis, Network Services and System in Department of Electrical Engineering, Royal Institute of Technology (KTH), Stockholm, Sweden, May 2011.
Scalable OFDM-based 5G NR air interface
Flexible slot-based 5G NR framework
Channel coding
3x increase in spectrum efficiency
Large BW opportunity for mmWave
required:
Future, 5G NR evolution and expansion beyond eMBB
MultiFire - own standing
MISSING:
Application areas
Missing aspects in 5G
Establish the link budget and the capacity using a simplified model for
Idea originated by Kjetil Kjernsmo in UNIK4710, and presented at [1]