par Van Den Biggelaar, Olivier 
;Dricot, Jean-Michel ;De Doncker, Philippe ;Horlin, François
Référence EURASIP Journal on wireless communications and networking, 138
Publication Publié, 2012-04
;Dricot, Jean-Michel ;De Doncker, Philippe ;Horlin, François Référence EURASIP Journal on wireless communications and networking, 138
Publication Publié, 2012-04
Article révisé par les pairs
| Résumé : | In cognitive radios systems, the sparse assigned frequency bands are opened to secondary users, provided that the aggregated interferences induced by the secondary transmitters on the primary receivers are negligible. Cognitive radios are established in two steps: the radios firstly sense the available frequency bands and secondly communicate using these bands. In this article, we propose two decentralized resource allocation Q-learning algorithms: the first one is used to share the sensing time among the cognitive radios in a way that maximize the throughputs of the radios. The second one is used to allocate the cognitive radio powers in a way that maximizes the signal on interference-plus-noise ratio (SINR) at the secondary receivers while meeting the primary protection constraint. Numerical results show the convergence of the proposed algorithms and allow the discussion of the exploration strategy, the choice of the cost function and the frequency of execution of each algorithm. |
