by X. Liu, J. Kountouriotis, A. P. Petropulu and K. R. Dandekar
Reference:
X. Liu, J. Kountouriotis, A. P. Petropulu, K. R. Dandekar, “ALOHA With Collision Resolution (ALOHA-CR): Theory and Software Defined Radio Implementation”, IEEE Transactions on Signal Processing, vol. 58, no. 8, pp. 4396-4410, 2010.
Bibtex Entry:
@ARTICLE{5447720, author={X. Liu and J. Kountouriotis and A. P. Petropulu and K. R. Dandekar}, journal={IEEE Transactions on Signal Processing}, title={ALOHA With Collision Resolution (ALOHA-CR): Theory and Software Defined Radio Implementation}, year={2010}, volume={58}, number={8}, pages={4396-4410}, keywords={access protocols;cellular radio;queueing theory;radio links;software radio;collision resolution;ALOHA-CR;software defined radio implementation;cross-layer approach;high throughput wireless communications;cellular uplink scenario;base station;packet transmission;signal polyphase components;optimal contention probability;queuing delay analysis;wireless open access research platform;Software radio;Throughput;Delay;Multiaccess communication;Road accidents;Base stations;Probability;Bandwidth;Time division multiple access;Frequency division multiaccess;Blind MIMO system estimation;blind source separation;collision resolution;multiuser separation;software defined radio}, doi={10.1109/TSP.2010.2048315}, ISSN={1053-587X}, month={Aug},}