Spectrum scarcity demands for additional bandwidth where new services can be deployed on. However, today's spectrum allocation leaves almost no bands unallocated. Thus, Cognitive Radio has been studied to bring relief to the lack of spectrum, moving towards a more efficient and dynamic spectrum access. In this domain TV White Space have been proposed as a possible solution to bring new, valuable spectrum for opportunistic services. However, their availability is quite low in highly populated areas, and thus their viability is limited. This is mainly because the availability of TV White Space is typically considered at the rooftop, through two-dimensional propagation models which do not account for possible spectrum re-utilization policies within a building, or in a small-scale area. In this paper, we show that much more communication opportunities can be found when we consider also the third-dimension, i.e. the height from the terrain, and novel per-floor allocation policies. We propose three main contributions in this paper. First, we describe an analytical model through which we derive the number of available spectrum resources for indoor secondary networks, considering PU protection policies in the same building, and in surrounding buildings. Second, we estimate the number of TV Gray Space (TVGS) over realistic scenarios in candidate cities, considering realistic street topology and buildings locations, and we show that this value can be much higher than what reported in the spectrum database. Finally, we investigate co-existence of secondary networks on TVWS, when novel per-floor spectrum sharing models are used.

On 3-dimensional spectrum sharing for TV white and Gray Space networks / Bedogni, Luca; Trotta, Angelo; Di Felice, Marco. - ELETTRONICO. - (2015), pp. 7158139.1-7158139.8. (Intervento presentato al convegno 16th IEEE International Symposium on a World of Wireless, Mobile and Multimedia Networks, WoWMoM 2015 tenutosi a Boston University Campus, usa nel 2015) [10.1109/WoWMoM.2015.7158139].

On 3-dimensional spectrum sharing for TV white and Gray Space networks

BEDOGNI, LUCA;TROTTA, ANGELO;DI FELICE, MARCO
2015

Abstract

Spectrum scarcity demands for additional bandwidth where new services can be deployed on. However, today's spectrum allocation leaves almost no bands unallocated. Thus, Cognitive Radio has been studied to bring relief to the lack of spectrum, moving towards a more efficient and dynamic spectrum access. In this domain TV White Space have been proposed as a possible solution to bring new, valuable spectrum for opportunistic services. However, their availability is quite low in highly populated areas, and thus their viability is limited. This is mainly because the availability of TV White Space is typically considered at the rooftop, through two-dimensional propagation models which do not account for possible spectrum re-utilization policies within a building, or in a small-scale area. In this paper, we show that much more communication opportunities can be found when we consider also the third-dimension, i.e. the height from the terrain, and novel per-floor allocation policies. We propose three main contributions in this paper. First, we describe an analytical model through which we derive the number of available spectrum resources for indoor secondary networks, considering PU protection policies in the same building, and in surrounding buildings. Second, we estimate the number of TV Gray Space (TVGS) over realistic scenarios in candidate cities, considering realistic street topology and buildings locations, and we show that this value can be much higher than what reported in the spectrum database. Finally, we investigate co-existence of secondary networks on TVWS, when novel per-floor spectrum sharing models are used.
2015
Proceedings of the WoWMoM 2015: A World of Wireless Mobile and Multimedia Networks
1
8
On 3-dimensional spectrum sharing for TV white and Gray Space networks / Bedogni, Luca; Trotta, Angelo; Di Felice, Marco. - ELETTRONICO. - (2015), pp. 7158139.1-7158139.8. (Intervento presentato al convegno 16th IEEE International Symposium on a World of Wireless, Mobile and Multimedia Networks, WoWMoM 2015 tenutosi a Boston University Campus, usa nel 2015) [10.1109/WoWMoM.2015.7158139].
Bedogni, Luca; Trotta, Angelo; Di Felice, Marco
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/571904
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