@article {IOPORT.03894971,
    author       = {Koml\'os, J\'anos and Greenberg, Albert G.},
    title        = {An asymptotically nonadaptive algorithm for conflict resolution in multiple-access channels.},
    year         = {1985},
    journal      = {IEEE Transactions on Information Theory},
    volume       = {31},
    issn         = {0018-9448},
    pages        = {302-306},
    publisher    = {Institute of Electrical and Electronics Engineers (IEEE), New York, NY},
    doi          = {10.1109/TIT.1985.1057020},
    abstract     = {A basic problem in the decentralized control of a multiple access channel is to resolve the conflicts that arise when several stations transmit simultaneously to the channel. Capetanakis, Hayes, and Tsybakov and Mikhajlov found a deterministic tree algorithm that resolves conflicts among k stations from an ensemble of n in time $\Theta (k+k \log (n/k))$ in the worst case. In this algorithm, at each step, the choice of which stations to enable to transmit depends crucially on feedback information provided by the channel. We show that if k is given a priori then such conflicts can be resolved in time $\Theta (k+k \log (n/k))$ using an algorithm in which the corresponding choices do not depend on feedback.},
    identifier   = {03894971},
}