Approximation Algorithms for Coordinating Ad Campaigns on Social Networks

We study a natural model of coordinated social ad campaigns over a social network, based on models of Datta et al. and Aslay et al. Multiple advertisers are willing to pay the host - up to a known budget - per user exposure, whether that exposure is sponsored or organic (i.e., shared by a friend). Campaigns are seeded with sponsored ads to some users, but no network user must be exposed to too many sponsored ads. As a result, while ad campaigns proceed independently over the network, they need to be carefully coordinated with respect to their seed sets. We study the objective of maximizing the network's total ad revenue. Our main result is to show that under a broad class of social influence models, the problem can be reduced to maximizing a submodular function subject to two matroid constraints; it can therefore be approximated within a factor essentially 1/2 in polynomial time. When there is no bound on the individual seed set sizes of advertisers, the constraints correspond only to a single matroid, and the guarantee can be improved to 1 - 1/e; in that case, a factor 1/2 is achieved by a practical greedy algorithm. The 1 - 1/e approximation algorithm for the matroid-constrained problem is far from practical; however, we show that specifically under the Independent Cascade model, LP rounding and Reverse Reachability techniques can be combined to obtain a 1 - 1/e approximation algorithm which scales to several tens of thousands of nodes. Our theoretical results are complemented by experiments evaluating the extent to which the coordination of multiple ad campaigns inhibits the revenue obtained from each individual campaign, as a function of the similarity of the influence networks and the strength of ties in the network. Our experiments suggest that as networks for different advertisers become less similar, the harmful effect of competition decreases. With respect to tie strengths, we show that the most harm is done in an intermediate range.

• Publication year

  2019

• Venue

  International Conference on Information and Knowledge Management

• Publication date

  2019-08-24

• Fields of study

  Computer Science

• Identifiers
  DOI 10.1145/3357384.3358063arXiv 1908.09185
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar

• No claims are published for this paper.

• No concepts are published for this paper.

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