1,896 research outputs found
ARQ Protocols in Cognitive Decode-and-Forward Relay Networks: Opportunities Gain
In this paper, two novel automatic-repeat-request (ARQ) based protocols were proposed, which exploit coop- eration opportunity inherent in secondary retransmission to create access opportunities. If the signal was not decoded correctly in destination, another user can be acted as a relay to reduce retransmission rounds by relaying the signal. For comparison, we also propose a Direct ARQ Protocol. Specif- ically, we derive the exact closed-form outage probability of three protocols, which provides an effective means to evalu- ate the effects of several parameters. Moreover, we propose a new metric to evaluate the performance improvement for cognitive networks. Finally, Monte Carlo simulations were presented to validate the theory analysis, and a comparison is made among the three protocols
Dynamically generated cyclic dominance in spatial prisoner's dilemma games
We have studied the impact of time-dependent learning capacities of players
in the framework of spatial prisoner's dilemma game. In our model, this
capacity of players may decrease or increase in time after strategy adoption
according to a step-like function. We investigated both possibilities
separately and observed significantly different mechanisms that form the
stationary pattern of the system. The time decreasing learning activity helps
cooperator domains to recover the possible intrude of defectors hence supports
cooperation. In the other case the temporary restrained learning activity
generates a cyclic dominance between defector and cooperator strategies, which
helps to maintain the diversity of strategies via propagating waves. The
results are robust and remain valid by changing payoff values, interaction
graphs or functions characterizing time-dependence of learning activity. Our
observations suggest that dynamically generated mechanisms may offer
alternative ways to keep cooperators alive even at very larger temptation to
defect.Comment: 7 pages, 6 figures, accepted for publication in Physical Review
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