Coexistence of Digital Terrestrial Television and 4G LTE Mobile Network Utilizing Supplemental Downlink Concept: A Real Case Study

This paper contributes to the studies for long-term evolution (LTE) deployment into the ultrahigh-frequency (UHF) broadcasting spectrum (470–790 MHz) utilizing the supplemental downlink (SDL) concept and its coexistence with the digital terrestrial Television (DTT) service. The performed real and practical coexistence scenario studies were based on the modeling and simulation of the LTE and DTT systems in order to assess potential interference between systems and the availability of the spectrum for the LTE SDL services. Simulations were aligned with the scenarios and assumptions agreed to in the European regulation complemented with real case study parameters from Finland: the early adopter of the digital dividend II. The results lead to some conclusions about the LTE SDL-DTT coexistence and indicated availability of the complementary LTE SDL services on the lower UHF spectrum. Flexible use of the UHF band aims to increase the efficiency of spectrum use in delivering fast growing and converging mobile broadband, media, and TV content to meet the changing consumer needs. Simulated scenarios can be utilized by regulation and standardization forums for studying the future of UHF spectrum and LTE broadcasting evolution in mobile communications toward fifth-generation (5G).

[1]  David Gomez-Barquero,et al.  5th generation mobile networks: A new opportunity for the convergence of mobile broadband and broadcast services , 2015, IEEE Communications Magazine.

[2]  Kamran Etemad,et al.  Carrier aggregation framework in 3GPP LTE-advanced [WiMAX/LTE Update] , 2010, IEEE Communications Magazine.

[3]  Ladislav Polak,et al.  Mobile Communication Networks and Digital Television Broadcasting Systems in the Same Frequency Bands – Advanced Co-Existence Scenarios , 2014 .

[4]  David Gomez-Barquero,et al.  Broadcast television spectrum incentive auctions in the u.s.: trends, challenges, and opportunities , 2015, IEEE Communications Magazine.

[5]  David Gomez-Barquero,et al.  Coexistence of digital terrestrial television and next generation cellular networks in the 700 MHz band , 2014, IEEE Wireless Communications.

[6]  Amal Abdel Razzac,et al.  Dimensioning and Profit Sharing in Hybrid LTE/DVB Systems to Offer Mobile TV Services , 2013, IEEE Transactions on Wireless Communications.

[7]  Martin Slanina,et al.  Study of coexistence between indoor LTE femtocell and outdoor-to-indoor DVB-T2-Lite reception in a shared frequency band , 2015, EURASIP J. Wirel. Commun. Netw..

[8]  David Gomez-Barquero,et al.  Interference Analysis Between Digital Terrestrial Television (DTT) and 4G LTE Mobile Networks in the Digital Dividend Bands , 2016, IEEE Transactions on Broadcasting.

[9]  Petri Ahokangas,et al.  Spectrum sharing using licensed shared access: the concept and its workflow for LTE-advanced networks , 2014, IEEE Wireless Communications.

[10]  Martin Slanina,et al.  Coexistence Between DVB-T/T2 and LTE Standards in Common Frequency Bands , 2016, Wirel. Pers. Commun..

[11]  Wei Li,et al.  Performance and Analysis on LTE System under Adjacent Channel Interference of Broadcasting System , 2012, 2012 IEEE 12th International Conference on Computer and Information Technology.

[12]  Seong-Jun Oh,et al.  Coexistence analysis between IMT system and DTV system in the 700MHz band , 2012, 2012 International Conference on ICT Convergence (ICTC).

[13]  Marja Matinmikko,et al.  LTE broadcast and supplemental downlink enablers for exploiting novel service and business opportunities in the flexible use of the uhf broadcasting spectrum , 2016, IEEE Communications Magazine.

[14]  A. De Vita,et al.  Assessment of Interference to the DTT Service Generated by LTE Signals on Existing Head Amplifiers of Collective Distribution Systems: A Real Case Study , 2014, IEEE Transactions on Broadcasting.

[15]  P. Green CommuniCrostic no. 16 , 1983 .