Title :
Comments on “Optimal utilization of a cognitive shared channel with a rechargeable primary source node”
Author :
El Shafie, Ahmed ; Salem, Ahmed Sultan
Author_Institution :
Dept. of Electr. Eng., Univ. of Texas at Dallas, Richardson, TX, USA
Abstract :
In a recent paper [1], the authors investigated the maximum stable throughput region of a network composed of a rechargeable primary user and a secondary user plugged to a reliable power supply. The authors studied the cases of an infinite and a finite energy queue at the primary transmitter. However, the results of the finite case are incorrect. We show that under the proposed energy queue model (a decoupled M/D/l queueing system with Bernoulli arrivals and the consumption of one energy packet per time slot), the energy queue capacity does not affect the stability region of the network.
Keywords :
cognitive radio; queueing theory; radio transmitters; wireless channels; Bernoulli arrivals; cognitive shared channel; decoupled M/D/l queueing system; energy queue capacity; energy queue model; finite energy queue; maximum stable throughput region; primary transmitter; rechargeable primary source node; rechargeable primary user; reliable power supply; stability region; Data models; Electrical engineering; Markov processes; Mathematical model; Queueing analysis; Radio transmitters; Stability analysis; Bernoulli arrivals; M/D/l/c queueing system; M/M/l/c queueing system; Markov chain; Poisson arrivals; cognitive radio; rechargeable battery;
Journal_Title :
Communications and Networks, Journal of
DOI :
10.1109/JCN.2015.000048
