The major contribution of this paper is distributed power allocation for a multi-user multi-channel Cognitive Radio (CR) network which deploys overlay spectrum sharing by the Primary Users (PUs) and Secondary Users (SUs), and Frequency Division Multiplexing Access (FDMA) for the SUs. The transmit power of each SU is constrained by an individual node power budget, the interference threshold on the PU band, as well as the interference caused to the neighboring SUs. Motivated by the non-convex structure of the problem and the need to execute the power allocation distributedly, the problem is cast within a game theoretic frame-work. Pay-off functions for the SUs are formulated to suit the system model, and the Nash Equilibrium for the game is a...
Abstract—In this paper, we consider power allocation in multi-band cognitive radio (CR) networks, wh...
In a cognitive radio network wherein primary and secondary users coexist, an efficient power allocat...
It is a complex task to allocate the secondary users\u27 power in OFDM-based cognitive radio network...
The major contribution of this paper is distributed power allocation for a multi-user multi-channel ...
In this paper we study the distributed multi-channel power allocation for spectrum sharing cognitive...
In cognitive radio network (CRN), the utilities results in Nash equilibrium of power control game wi...
The power allocation in an underlay cognitive radio network rises up several challenges due to rapid...
Distributed power control is investigated for cognitive radio networks (CRNs) based on a cooperative...
Spectrum sharing is an essential enabling functionality to allow the coexistence between primary use...
The focus of this thesis is to establish a game theoretic framework for cognitive radio (CR) wireles...
This paper addresses distributed sub-carrier bandwidth sizing and power allocation for the Secondary...
In a spectrum sharing system, lower-priority users are allowed to spatially reuse the spectrum alloc...
Interference resulting from Cognitive Radios (CRs) is the most important aspect of cognitive radio n...
This paper addresses the power control problem in an underlay cognitive radio network where N selfis...
Interference resulting from Cognitive Radios (CRs) is the most important aspect of cognitive radio n...
Abstract—In this paper, we consider power allocation in multi-band cognitive radio (CR) networks, wh...
In a cognitive radio network wherein primary and secondary users coexist, an efficient power allocat...
It is a complex task to allocate the secondary users\u27 power in OFDM-based cognitive radio network...
The major contribution of this paper is distributed power allocation for a multi-user multi-channel ...
In this paper we study the distributed multi-channel power allocation for spectrum sharing cognitive...
In cognitive radio network (CRN), the utilities results in Nash equilibrium of power control game wi...
The power allocation in an underlay cognitive radio network rises up several challenges due to rapid...
Distributed power control is investigated for cognitive radio networks (CRNs) based on a cooperative...
Spectrum sharing is an essential enabling functionality to allow the coexistence between primary use...
The focus of this thesis is to establish a game theoretic framework for cognitive radio (CR) wireles...
This paper addresses distributed sub-carrier bandwidth sizing and power allocation for the Secondary...
In a spectrum sharing system, lower-priority users are allowed to spatially reuse the spectrum alloc...
Interference resulting from Cognitive Radios (CRs) is the most important aspect of cognitive radio n...
This paper addresses the power control problem in an underlay cognitive radio network where N selfis...
Interference resulting from Cognitive Radios (CRs) is the most important aspect of cognitive radio n...
Abstract—In this paper, we consider power allocation in multi-band cognitive radio (CR) networks, wh...
In a cognitive radio network wherein primary and secondary users coexist, an efficient power allocat...
It is a complex task to allocate the secondary users\u27 power in OFDM-based cognitive radio network...