This paper aims at investigating some simple cooperative relaying strategies which rely on the exploitation of the Delay Diversity technique in a DVB-SH compliant hybrid satellite/terrestrial network. In particular the combination of the proposed cooperative system with the Cyclic Left Sample-Shift of the received signal is adopted in order to simplify the channel estimation process. The opposite effects of the Cooperative Delay Diversity technique and the Cyclic Left Sample-Shift on the equivalent channel transfer function are analysed: particularly, the two algorithms can coexist without any mutual impingement. Simulation results confirm the effectiveness of the proposed schemes in the mitigation of the Non-Line-Of-Sight (NLOS) propagation drawbacks and in the simplification of the channel estimation: the first positive effect is caused by the increase of the frequency selectivity of the equivalent channel perceived by the receiver (Cooperative DD technique) whereas the second result is due to the reduction of the frequency selectivity of the channel transfer function, which is used in the equalization process (Cyclic Left Sample-Shift).

Low Complexity Cooperative Diversity Algorithms for Satellite/Terrestrial Systems / S.Morosi;S.Jayousi;E.Del Re. - STAMPA. - (2010), pp. 1-8. (Intervento presentato al convegno Future network and Mobile Summit 2010 tenutosi a Florence nel June 2010).

Low Complexity Cooperative Diversity Algorithms for Satellite/Terrestrial Systems

MOROSI, SIMONE;JAYOUSI, SARA;DEL RE, ENRICO
2010

Abstract

This paper aims at investigating some simple cooperative relaying strategies which rely on the exploitation of the Delay Diversity technique in a DVB-SH compliant hybrid satellite/terrestrial network. In particular the combination of the proposed cooperative system with the Cyclic Left Sample-Shift of the received signal is adopted in order to simplify the channel estimation process. The opposite effects of the Cooperative Delay Diversity technique and the Cyclic Left Sample-Shift on the equivalent channel transfer function are analysed: particularly, the two algorithms can coexist without any mutual impingement. Simulation results confirm the effectiveness of the proposed schemes in the mitigation of the Non-Line-Of-Sight (NLOS) propagation drawbacks and in the simplification of the channel estimation: the first positive effect is caused by the increase of the frequency selectivity of the equivalent channel perceived by the receiver (Cooperative DD technique) whereas the second result is due to the reduction of the frequency selectivity of the channel transfer function, which is used in the equalization process (Cyclic Left Sample-Shift).
2010
Future Network & Mobile Summit 2010,
Future network and Mobile Summit 2010
Florence
June 2010
S.Morosi;S.Jayousi;E.Del Re
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/390607
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