Title :
Auction Approaches for Resource Allocation in Wireless Systems: A Survey
Author :
Yang Zhang ; Chonho Lee ; Niyato, Dusit ; Ping Wang
Author_Institution :
Sch. of Comput. Eng., Nanyang Technol. Univ., Singapore, Singapore
fDate :
Third Quarter 2013
Abstract :
As wireless systems evolve with new mobile technologies, they tend to become complicated in terms of architectures and managements. Auction theory, as a subfield of economics and business management, has been introduced to provide an interdisciplinary technology for radio resource allocation (e.g., subchannels, time slots, and transmit power levels) in the wireless systems. By using various auction approaches, such radio resources are efficiently allocated among users and providers of services in the systems. Participants (i.e., users and providers) of an auction have their own strategies that follow the incentives and rules brought by the auction. Auction methods are widely employed in areas such as cognitive radio, cellular networks, and wireless mesh networks. This paper gives a comprehensive survey of recent auction approaches (i.e., auction-based applications and mechanisms) applied in wireless and mobile systems. First, auction theory and different types of auction are introduced. The motivation of using auction in wireless systems is given. Then, the reviews of auction approaches applied in the single-hop and multi-hop wireless networks are provided. Finally, the open research issues are discussed.
Keywords :
cellular radio; cognitive radio; mobile radio; resource allocation; wireless mesh networks; auction-based applications; auction-based mechanisms; business management; cellular networks; cognitive radio; economics; interdisciplinary technology; mobile technologies; multi-hop wireless networks; radio resource allocation; radio resources; resource allocation; single-hop wireless networks; subchannels; time slots; wireless mesh networks; wireless systems; Ad hoc networks; Cognitive radio; Cost accounting; Economics; Licenses; Resource management; Auction; Cognitive radio; Mechanism design; Mobile ad hoc network; Radio resource management; Spectrum sharing;
Journal_Title :
Communications Surveys & Tutorials, IEEE
DOI :
10.1109/SURV.2012.110112.00125