Approximating the domatic number

Feige, Uriel; Halldórsson, Magnús M.; Kortsarz, Guy

doi:10.1145/335305.335321

Cited by 75 publications

(158 citation statements)

References 26 publications

Supporting

Mentioning

153

Contrasting

Unclassified

Order By: Relevance

“…This problem is similar to the domatic partition problem in graph theory [8] , where a domatic partition is a partition of vertices in which each part is a dominating set. With the domatic partition, each vertex in the graph is either in the dominating set or has a neighbor in the set.…”

Section: Dependable Clusteringmentioning

confidence: 99%

A dependable Slepian-Wolf coding based clustering algorithm for data aggregation in wireless sensor networks

Shu

Zheng

et al. 2013

2013 International Conference on Wireless Communications and Signal Processing

View full text Add to dashboard Cite

Section: Dependable Clusteringmentioning

confidence: 99%

A dependable Slepian-Wolf coding based clustering algorithm for data aggregation in wireless sensor networks

Shu

Zheng

et al. 2013

2013 International Conference on Wireless Communications and Signal Processing

View full text Add to dashboard Cite

“…However, exact solutions can be computed for several classes of graphs [42]. We focus in this paper on one of these classes, namely the interval graph, because a linear-time algorithm is known for computing a domatic partition on any interval graph, and an interval graph is domatically full, i.e., k domatic partitions can be found in an interval graph with a minimal degree equal to k − 1.…”

Section: A Heuristic Using Domatic Partitionmentioning

confidence: 99%

“…These are works related to our algorithm development, although our objective is different. In these references, a given graph is partitioned into a number of partitions equal to the minimal graph degree, and the solution approaches are based on variants of a well-known randomized approximation algorithm [42]. In our case, we partition a complete weighted graph into k partitions in respect of the weights.…”

Section: A Heuristic Using Domatic Partitionmentioning

confidence: 99%

Optimal network locality in distributed virtualized data-centers

Leblet

Simon

et al. 2011

Computer Communications

View full text Add to dashboard Cite

Cost efficiency is a key aspect in deploying distributed service in networks within decentralized service delivery architectures. In this paper, we address this aspect from an optimization and algorithmic standpoint. The research deals with the placement of service components to network sites, where the performance metric is the cost for acquiring components between the sites. The resulting optimization problem, which we refer to as the k-Component Multisite Placement Problem, is applicable to service distribution in a wide range of communication networking scenarios. We provide a theoretical analysis of the problem's computational complexity, and develop an integer programming model for providing reference results for performance benchmarking. On the algorithmic side, we present four approaches: an algorithm with approximation guarantee and three heuristics algorithms. The first heuristic is derived from graph theory on domatic partition. The second heuristic, built on intuition, admits distributed computation. The third heuristic emphasizes on fairness in cost distribution among the sites. We report simulation results for sets of networks where cost is represented by round-trip time (RTT) originating from real measurements. For small networks, the integer model is used to study algorithm performance in terms of optimality. Large networks are used to compare the al- * Corresponding author1 The work of this author is supported by CENIIT, Linköping University, Sweden 2 The work of this author is supported by Vipeer project and Agence Nationale de la Recherche, France February 11, 2011 gorithms relatively to each other. Among the algorithms, the heuristic based on intuition has close-to-optimal performance, and the fairness heuristic achieves a good balance between single-site cost and the overall one. In addition, the experiments demonstrate the significance of optimization for cost reduction in comparison to a the random allocation strategy. Preprint submitted to Elsevier

show abstract

“…We believe that even networks with a few hundreds of nodes could be solved on a standard server. Even though attractive approximation algorithms are available [24], we decided to develop an ILP formulation to retain optimality so as to be able to assess the maximum extent of the gain of our approach. We solve our ILP using the commercial CPLEX package.…”

Section: Centralized Sleeping Coordinationmentioning

confidence: 99%

Sleeping Coordination for Comprehensive Sensing Using Isotonic Regression and Domatic Partitions

Koushanfar

Taft

Potkonjak

2006

Proceedings IEEE INFOCOM 2006. 25TH IEEE International Conference on Computer Communications

View full text Add to dashboard Cite

Abstract-We address the problem of energy efficient sensing by adaptively coordinating the sleep schedules of sensor nodes while guaranteeing that values of sleeping nodes can be recovered from the awake nodes within a user's specified error bound. Our approach has two phases. First, development of models for predicting measurement of one sensor using data from other sensors. Second, creation of the maximal number of subgroups of disjoint nodes, each of whose data is sufficient to recover the measurements of the entire sensor network. For prediction of the sensor measurements, we introduce a new optimal non-parametric polynomial time isotonic regression. Utilizing the prediction models, the sleeping coordination problem is abstracted to a domatic number problem and is optimally solved using an ILP solver. To capture evolving dynamics of the instrumented environment, we monitor the prediction errors occasionally to trigger adaptation of the models and domatic partitions as needed. Experimental evaluations on traces of a medium size network with temperature and humidity sensors indicate that the method can extend the lifetime of the network by a factor of 4 or higher even for a strict error target.

show abstract

Approximating the domatic number

Cited by 75 publications

References 26 publications

A dependable Slepian-Wolf coding based clustering algorithm for data aggregation in wireless sensor networks

A dependable Slepian-Wolf coding based clustering algorithm for data aggregation in wireless sensor networks

Optimal network locality in distributed virtualized data-centers

Sleeping Coordination for Comprehensive Sensing Using Isotonic Regression and Domatic Partitions

Contact Info

Product

Resources

About