Many users in online social networks are constantly trying to gain attention from their followers by broadcasting posts to them. These broadcasters are likely to gain greater attention if their posts can remain visible for a longer period of time among their followers' most recent feeds. Then when to post? In this paper, we study the problem of smart broadcasting using the framework of temporal point processes, where we model users feeds and posts as discrete events occurring in continuous time. Based on such continuous-time model, then choosing a broadcasting strategy for a user becomes a problem of designing the conditional intensity of her posting events. We derive a novel formula which links this conditional intensity with the visibility of the user in her followers' feeds. Furthermore, by exploiting this formula, we develop an efficient convex optimization framework for the when-to-post problem. Our method can find broadcasting strategies that reach a desired visibility level with provable guarantees. We experimented with data gathered from Twitter, and show that our framework can consistently make broadcasters' post more visible than alternatives.

@inproceedings{karimi2016smart,
	author = {Karimi, Mohammad Reza and Tavakoli, Erfan and Farajtabar, Mehrdad and Song, Le and Gomez Rodriguez, Manuel},
	booktitle = {Proceedings of the 22nd ACM SIGKDD international conference on Knowledge discovery and data mining},
	organization = {ACM},
	pages = {1635--1644},
	title = {Smart broadcasting: Do you want to be seen?},
	year = {2016}}