Title :
Green Random Access for Wireless Peer Discovery
Author_Institution :
Electron. & Telecommun. Res. Inst. (ETRI), Daejeon, South Korea
Abstract :
This letter investigates the joint design problem of transmission probability (v) and transmit power (p) in random access-based wireless peer discovery (RA-WPD) operations, in terms of reducing the power consumption of the peers. These v and p determine the number of transmitters and receivers in a half duplex operation and the link coverage; therefore, their effects should be managed through comprehensively considering the wireless network behaviors such as the spatial distribution of peers and wireless channels. This design problem is expressed as geometric programming (GP) and the numerical results demonstrate that the v and p design based on the GP solution contributes to reducing the power consumption.
Keywords :
geometric programming; radio links; radio networks; radio receivers; radio transmitters; statistical distributions; telecommunication power management; GP solution; RA-WPD; geometric programming; green random access; half duplex operation; link coverage; power consumption reduction; radio receiver; radio transmitter; transmission probability; wireless network; wireless peer discovery; Ad hoc networks; Green design; Interference; Noise measurement; Power demand; Probabilistic logic; Wireless communication; D2D networks; Peer discovery; Power control; energy saving; power control; random access; stochastic geometry;
Journal_Title :
Communications Letters, IEEE
DOI :
10.1109/LCOMM.2014.2366296
