doi:10.1016/j.tcs.2006.03.027 
Copyright © 2006 Elsevier B.V. All rights reserved.
Asymptotic analysis of a leader election algorithm
aLIPN (UMR CNRS 7030), Université Paris 13, 99, av. J.-B. Clément 93430 Villetaneuse, France
bDépartement d’Informatique, Université Libre de Bruxelles, CP 212, Bd. du Triomphe, B-1050, Bruxelles, Belgium
Received 3 January 2005;
revised 23 November 2005;
accepted 29 March 2006.
Communicated by H. Prodinger.
Available online 17 May 2006.
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Abstract
Itai and Rodeh showed that, on the average, the communication of a leader election algorithm takes no more than LN bits, where L
2.441716 and N denotes the size of the ring. We give a precise asymptotic analysis of the average number of rounds M(n) required by the algorithm, proving for example that 
where n is the number of starting candidates in the election. Accurate asymptotic expressions of the second moment M(2)(n) of the discrete random variable at hand, its probability distribution, and the generalization to all moments are given. Corresponding asymptotic expansions (n→∞) are provided for sufficiently large j, where j counts the number of rounds. Our numerical results show that all computations perfectly fit the observed values. Finally, we investigate the generalization to probability t/n, where t is a non-negative real parameter. The real function 
is shown to admit one unique minimum M(∞,t*) on the real segment (0,2). Furthermore, the variations of M(∞,t) on the whole real line are also studied in detail.
Keywords: Complexity analysis; Asymptotic approximation; Distributed algorithm; Probability distribution
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