We show that randomization can lead to significant improvements for a few fundamental problems in distributed tracking. Our basis is the count-tracking problem, where there are k players, each holding a counter n i that gets incremented over time, and the goal is to track an ε-approximation of their sum n=Σ in i continuously at all times, using minimum communication. While the deterministic communication complexity of the problem is Θ(k/ε·log N), where N is the final value of n when the tracking finishes, we show that with randomization, the communication cost can be reduced to Θ(√k/ε·log N). Our algorithm is simple and uses only O(1) space at each player, while the ...
Consider a distributed system with n nodes where each node holds a multiset of items. In this paper,...
© 2019 Association for Computing Machinery. We characterize the communication complexity of the foll...
Abstract—Consider a distributed system with n nodes where each node holds a multiset of items. In th...
We show that randomization can lead to significant improvements for a few fundamental problems in di...
We investigate several basic problems in the distributed streaming model. In the this model, we have...
We consider the the problem of tracking heavy hitters and quantiles in the distributed streaming mod...
This paper presents improved deterministic distributed algorithms, with O(log n)-bit messages, for s...
The area of distributed monitoring requires tracking the value of a function of distributed data as ...
We investigate the class of so-called epidemic algorithms that are commonly used for the lazy transm...
Iterative distributed algorithms are studied for computing arithmetic averages over networks of agen...
We give the first linear-time counting algorithm for processes in anonymous 1-interval-connected dyn...
The present paper shows that the Folk Theorem under imperfect (public) information (Fudenberg, Levin...
Information dissemination is a fundamental problem in parallel and distributed computing. In its sim...
We consider distributed iterative algorithms for the averaging problem over time-varying topologies....
this paper, we propose an efficient linearizable counter. The definition of efficiency for distribut...
Consider a distributed system with n nodes where each node holds a multiset of items. In this paper,...
© 2019 Association for Computing Machinery. We characterize the communication complexity of the foll...
Abstract—Consider a distributed system with n nodes where each node holds a multiset of items. In th...
We show that randomization can lead to significant improvements for a few fundamental problems in di...
We investigate several basic problems in the distributed streaming model. In the this model, we have...
We consider the the problem of tracking heavy hitters and quantiles in the distributed streaming mod...
This paper presents improved deterministic distributed algorithms, with O(log n)-bit messages, for s...
The area of distributed monitoring requires tracking the value of a function of distributed data as ...
We investigate the class of so-called epidemic algorithms that are commonly used for the lazy transm...
Iterative distributed algorithms are studied for computing arithmetic averages over networks of agen...
We give the first linear-time counting algorithm for processes in anonymous 1-interval-connected dyn...
The present paper shows that the Folk Theorem under imperfect (public) information (Fudenberg, Levin...
Information dissemination is a fundamental problem in parallel and distributed computing. In its sim...
We consider distributed iterative algorithms for the averaging problem over time-varying topologies....
this paper, we propose an efficient linearizable counter. The definition of efficiency for distribut...
Consider a distributed system with n nodes where each node holds a multiset of items. In this paper,...
© 2019 Association for Computing Machinery. We characterize the communication complexity of the foll...
Abstract—Consider a distributed system with n nodes where each node holds a multiset of items. In th...