We study the optimal control problem of maximizing the spread of an information epidemic on a social network. Information propagation is modeled as a susceptible-infected (SI) process, and the campaign budget is fixed. Direct recruitment and word-of-mouth incentives are the two strategies to accelerate information spreading (controls). We allow for multiple controls depending on the degree of the nodes/individuals. The solution optimally allocates the scarce resource over the campaign duration and the degree class groups. We study the impact of the degree distribution of the network on the controls and present results for Erdos-Renyi and scale-free networks. Results show that more resource is allocated to high-degree nodes in the case of sc...
Social networking platforms give people an opportunity to get in contact with each other irrespectiv...
The personalization of our news consumption on social media has a tendency to reinforce our pre-exis...
In this paper, we consider a new discrete-time model that describes the spread of information by sha...
We study the optimal control problem of allocating campaigning resources over the campaign duration ...
We model information dissemination as a susceptible-infected epidemic process and formulate a proble...
Information spreading in a population can be modeled as an epidemic. Campaigners (e.g., election cam...
Standard Susceptible-Infected-Susceptible (SIS) epidemic models assume that a message spreads from t...
We model the spread of information in a homogeneously mixed population using the Maki Thompson rumor...
We seek to identify and address how different types of heterogeneity affect the optimal control of e...
We study the problem of optimal seed selection to maximize the fraction of individuals which has rec...
The process of diffusing viral marketing campaigns through social networks can be modeled under conc...
Abstract—We design intervention schemes to control informa-tion spread in multi-agent systems. We co...
This thesis focuses on designing efficient mechanisms for controlling information spread in networks...
International audienceWe model in this work dissemination of contents and competition between source...
We consider the problem of devising optimal timing of on-line campaigns for diffusion of product or ...
Social networking platforms give people an opportunity to get in contact with each other irrespectiv...
The personalization of our news consumption on social media has a tendency to reinforce our pre-exis...
In this paper, we consider a new discrete-time model that describes the spread of information by sha...
We study the optimal control problem of allocating campaigning resources over the campaign duration ...
We model information dissemination as a susceptible-infected epidemic process and formulate a proble...
Information spreading in a population can be modeled as an epidemic. Campaigners (e.g., election cam...
Standard Susceptible-Infected-Susceptible (SIS) epidemic models assume that a message spreads from t...
We model the spread of information in a homogeneously mixed population using the Maki Thompson rumor...
We seek to identify and address how different types of heterogeneity affect the optimal control of e...
We study the problem of optimal seed selection to maximize the fraction of individuals which has rec...
The process of diffusing viral marketing campaigns through social networks can be modeled under conc...
Abstract—We design intervention schemes to control informa-tion spread in multi-agent systems. We co...
This thesis focuses on designing efficient mechanisms for controlling information spread in networks...
International audienceWe model in this work dissemination of contents and competition between source...
We consider the problem of devising optimal timing of on-line campaigns for diffusion of product or ...
Social networking platforms give people an opportunity to get in contact with each other irrespectiv...
The personalization of our news consumption on social media has a tendency to reinforce our pre-exis...
In this paper, we consider a new discrete-time model that describes the spread of information by sha...