Optimizing Information Access in Networks via Edge Augmentation

Autor: Bhaskara, Aditya, Crane, Alex, Jain, Shweta, Mazumder, Md Mumtahin Habib Ullah, Sullivan, Blair D., Yalamanchili, Prasanth
Rok vydání: 2024
Předmět:
Druh dokumentu: Working Paper
Popis: Given a graph $G = (V, E)$ and a model of information flow on that network, a fundamental question is to understand whether all nodes have sufficient access to information generated at other nodes in the graph. If not, we can ask if a small set of interventions in the form of edge additions improve information access. Formally, the broadcast value of a network is defined to be the minimum over pairs $u,v \in V$ of the probability that an information cascade starting at $u$ reaches $v$. Having a high broadcast value ensures that every node has sufficient access to information spreading in a network, thus quantifying fairness of access. In this paper, we formally study the Broadcast Improvement problem: given $G$ and a parameter $k$, the goal is to find the best set of $k$ edges to add to $G$ in order to maximize the broadcast value of the resulting graph. We develop efficient approximation algorithms for this problem. If the optimal solution adds $k$ edges and achieves a broadcast of $\beta^*$, we develop algorithms that can (a) add $k$ edges and achieve a broadcast value roughly $(\beta^*)^4/16^k$, or (b) add $O(k\log n)$ edges and achieve a broadcast roughly $\beta^*$. We also provide other trade-offs that can be better depending on the parameter values. Our algorithms rely on novel probabilistic tools to reason about the existence of paths in edge-sampled graphs, and extend to a single-source variant of the problem, where we obtain analogous algorithmic results. We complement our results by proving that unless P = NP, any algorithm that adds $O(k)$ edges must lose significantly in the approximation of $\beta^*$, resolving an open question from prior work.
Comment: Version 2 adds a new single-criteria approximation
Databáze: arXiv