Polynomial-complexity, low-delay scheduling for SCFDMA-based wireless uplink networks

Author

Bodas, Shreeshankar ; Sadiq, Bilal

Author_Institution

Qualcomm, Inc., Bridgewater, NJ, USA

fYear

2013

fDate

14-19 April 2013

Firstpage

575

Lastpage

579

Abstract

Uplink scheduling/resource allocation under the single-carrier FDMA constraint is investigated, taking into account the queuing dynamics at the transmitters. Under the single-carrier constraint, the problem of MaxWeight scheduling, as well as that of determining if a given number of packets can be served from all the users, are shown to be NP-complete. Finally, a matching-based scheduling algorithm is presented that requires only a polynomial number of computations per timeslot, and in the case of a system with large bandwidth and user population, provably provides a good delay (small-queue) performance, even under the single-carrier constraint. In summary, the results in first part of the paper support the recent push to remove SCFDMA from the Standards, whereas those in the second part present a way of working around the single-carrier constraint if it remains in the Standards.

Keywords

computational complexity; frequency division multiple access; polynomials; queueing theory; radio networks; scheduling; MaxWeight scheduling; NP-complete; SCFDMA-based wireless uplink networks; low-delay scheduling; matching-based scheduling algorithm; polynomial-complexity; queuing dynamics; single-carrier FDMA constraint; transmitters; uplink scheduling-resource allocation; user population; Barium; OFDM; Radio spectrum management; Resource management; Servers; Uplink; Wireless communication; Batch-and-allocate; Uplink scheduling; single-carrier FDMA;

fLanguage

English

Publisher

ieee

Conference_Titel

INFOCOM, 2013 Proceedings IEEE

Conference_Location

Turin

ISSN

0743-166X

Print_ISBN

978-1-4673-5944-3

Type

conf

DOI

10.1109/INFCOM.2013.6566838

Filename

6566838