English

Solving the Identifying Code Set Problem with Grouped Independent Support

Social and Information Networks 2023-06-29 v1 Logic in Computer Science

Abstract

An important problem in network science is finding an optimal placement of sensors in nodes in order to uniquely detect failures in the network. This problem can be modelled as an identifying code set (ICS) problem, introduced by Karpovsky et al. in 1998. The ICS problem aims to find a cover of a set SS, s.t. the elements in the cover define a unique signature for each of the elements of SS, and to minimise the cover's cardinality. In this work, we study a generalised identifying code set (GICS) problem, where a unique signature must be found for each subset of SS that has a cardinality of at most kk (instead of just each element of SS). The concept of an independent support of a Boolean formula was introduced by Chakraborty et al. in 2014 to speed up propositional model counting, by identifying a subset of variables whose truth assignments uniquely define those of the other variables. In this work, we introduce an extended version of independent support, grouped independent support (GIS), and show how to reduce the GICS problem to the GIS problem. We then propose a new solving method for finding a GICS, based on finding a GIS. We show that the prior state-of-the-art approaches yield integer-linear programming (ILP) models whose sizes grow exponentially with the problem size and kk, while our GIS encoding only grows polynomially with the problem size and kk. While the ILP approach can solve the GICS problem on networks of at most 494 nodes, the GIS-based method can handle networks of up to 21363 nodes; a 40×\sim 40\times improvement. The GIS-based method shows up to a 520×520\times improvement on the ILP-based method in terms of median solving time. For the majority of the instances that can be encoded and solved by both methods, the cardinality of the solution returned by the GIS-based method is less than 10%10\% larger than the cardinality of the solution found by the ILP method.

Cite

@article{arxiv.2306.15693,
  title  = {Solving the Identifying Code Set Problem with Grouped Independent Support},
  author = {Anna L. D. Latour and Arunabha Sen and Kuldeep S. Meel},
  journal= {arXiv preprint arXiv:2306.15693},
  year   = {2023}
}

Comments

8 pages, to appear in the Proceedings of the 32nd International Joint Conference on Artificial Intelligence (IJCAI 2023), paper 4051

R2 v1 2026-06-28T11:16:00.204Z