Pricing for distributed resource allocation in MAC without SIC under QoS requirements with malicious users
WiOpt(2014)
摘要
We develop the noncooperative game with individual pricing for the general multiple access channel (MAC) system without successive interference cancellation (SIC). Each user allocates its own power by optimizing the individual utility function with clever price adaptation. We show that by the proposed prices, the best response (BR) power allocation of each user converges rapidly. The individual prices are proposed such that the Shannon rate-based quality-of-service (QoS) requirement of each user is achieved at the unique Nash equilibrium (NE) point. We analyse different behavior types of the users, especially the malicious behavior and the resulting NE power allocation and achievable rates of all the users with malicious users. We illustrate the convergence of the BR dynamic and the Price of Malice (PoM) by numerical simulations.
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关键词
ne point,nash equilibrium point,malicious users,behavior types,utility function,quality of service,shannon rate-based quality-of-service requirement,resource allocation,heterogeneous dense wireless networks,price of malice,radio networks,general multiple access channel system,convergence,game theory,pom,convergence of numerical methods,distributed resource allocation,br dynamic,mac system,telecommunication security,qos requirements,numerical simulations,best response power allocation,pricing,noncooperative game,games,nash equilibrium,interference,resource management,wireless networks
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