English

Gradient Method for Continuous Influence Maximization with Budget-Saving Considerations

Optimization and Control 2019-11-22 v1 Social and Information Networks

Abstract

Continuous influence maximization (CIM) generalizes the original influence maximization by incorporating general marketing strategies: a marketing strategy mix is a vector x=(x1,,xd)\boldsymbol x = (x_1,\dots,x_d) such that for each node vv in a social network, vv could be activated as a seed of diffusion with probability hv(x)h_v(\boldsymbol x), where hvh_v is a strategy activation function satisfying DR-submodularity. CIM is the task of selecting a strategy mix x\boldsymbol x with constraint ixik\sum_i x_i \le k where kk is a budget constraint, such that the total number of activated nodes after the diffusion process, called influence spread and denoted as g(x)g(\boldsymbol x), is maximized. In this paper, we extend CIM to consider budget saving, that is, each strategy mix x\boldsymbol x has a cost c(x)c(\boldsymbol x) where cc is a convex cost function, we want to maximize the balanced sum g(x)+λ(kc(x))g(\boldsymbol x) + \lambda(k - c(\boldsymbol x)) where λ\lambda is a balance parameter, subject to the constraint of c(x)kc(\boldsymbol x) \le k. We denote this problem as CIM-BS. The objective function of CIM-BS is neither monotone, nor DR-submodular or concave, and thus neither the greedy algorithm nor the standard result on gradient method could be directly applied. Our key innovation is the combination of the gradient method with reverse influence sampling to design algorithms that solve CIM-BS: For the general case, we give an algorithm that achieves (12ε)\left(\frac{1}{2}-\varepsilon\right)-approximation, and for the case of independent strategy activations, we present an algorithm that achieves (11eε)\left(1-\frac{1}{e}-\varepsilon\right) approximation.

Keywords

Cite

@article{arxiv.1911.09100,
  title  = {Gradient Method for Continuous Influence Maximization with Budget-Saving Considerations},
  author = {Wei Chen and Weizhong Zhang and Haoyu Zhao},
  journal= {arXiv preprint arXiv:1911.09100},
  year   = {2019}
}

Comments

To appear in AAAI-20, 43 pages

R2 v1 2026-06-23T12:22:39.434Z