peer-reviewedA detailed analysis of Twitter-based information cascades is performed, and it is demonstrated that branching process hypotheses are approximately satisfied. Using a branching process framework, models of agent-to-agent transmission are compared to conclude that a limited attention model better reproduces the relevant characteristics of the data than the more common independent cascade model. Existing and new analytical results for branching processes are shown to match well to the important statistical characteristics of the empirical information cascades, thus demonstrating the power of branching process descriptions for understanding social information spreading
Part 3: Social Media and Mobile Applications of AIInternational audienceThe prediction of social med...
Models of contagion dynamics, originally developed for infectious diseases, have proven relevant to ...
As online social networks become extremely popular in these days, people communicate and exchange in...
A detailed analysis of Twitter-based information cascades is performed, and it is demonstrated that ...
Models of contagion dynamics, originally developed for infectious diseases, have proven relevant to ...
Online social networks provide a platform for sharing information at an unprecedent...
peer-reviewedA model for the spreading of online information or ‘memes’ on multiplex networks is int...
Interesting posts are continually forwarded by the users of the online social network (OSN). Such pr...
As social media continues to influence our daily life, much research has focused on analyzing charac...
Online social network platforms have served as a substantial venue for research, offering a plethora...
Hawkes processes have been successfully applied to understand online information diffusion and popul...
There has been significant interest in studying social interactions in online social networks, such ...
Online microblogging sites have become increasingly important platforms for information diffusion in...
Information cascades in large social networks are complex phenomena governed by such diverse forces ...
A basic theme in probability is the use of simple approximations to study complex systems. In this t...
Part 3: Social Media and Mobile Applications of AIInternational audienceThe prediction of social med...
Models of contagion dynamics, originally developed for infectious diseases, have proven relevant to ...
As online social networks become extremely popular in these days, people communicate and exchange in...
A detailed analysis of Twitter-based information cascades is performed, and it is demonstrated that ...
Models of contagion dynamics, originally developed for infectious diseases, have proven relevant to ...
Online social networks provide a platform for sharing information at an unprecedent...
peer-reviewedA model for the spreading of online information or ‘memes’ on multiplex networks is int...
Interesting posts are continually forwarded by the users of the online social network (OSN). Such pr...
As social media continues to influence our daily life, much research has focused on analyzing charac...
Online social network platforms have served as a substantial venue for research, offering a plethora...
Hawkes processes have been successfully applied to understand online information diffusion and popul...
There has been significant interest in studying social interactions in online social networks, such ...
Online microblogging sites have become increasingly important platforms for information diffusion in...
Information cascades in large social networks are complex phenomena governed by such diverse forces ...
A basic theme in probability is the use of simple approximations to study complex systems. In this t...
Part 3: Social Media and Mobile Applications of AIInternational audienceThe prediction of social med...
Models of contagion dynamics, originally developed for infectious diseases, have proven relevant to ...
As online social networks become extremely popular in these days, people communicate and exchange in...