Inferring networks of diffusion and influence
Stanford University · California Institute of Technology
Abstract
Information diffusion and virus propagation are fundamental processes talking place in networks. While it is often possible to directly observe when nodes become infected, observing individual transmissions (i.e., who infects whom or who influences whom) is typically very difficult. Furthermore, in many applications, the underlying network over which the diffusions and propagations spread is actually unobserved. We tackle these challenges by developing a method for tracing paths of diffusion and influence through networks and inferring the networks over which contagions propagate. Given the times when nodes adopt pieces of information or become infected, we identify the optimal network that best explains the…
Citation impact
- FWCI
- 42.13
- Percentile
- 100%
- References
- 69
Authors
3Topics & keywords
- Computer science
- Tracing
- Diffusion
- Set (abstract data type)
- Core (optical fiber)
- Theoretical computer science
- Space (punctuation)
- Viral marketing