Abstract
Microblogging is a popular form of online social networking activity. It allows users to send messages in a one-to-many publish-subscribe manner. Most current service providers are centralized and deploy a client-server model with unencrypted message content. As a consequence, all user behavior can, by default, be monitored, and censoring based on message content can easily be enforced on the server side. A distributed, peer-to-peer microblogging system consisting of mobile smartphone-equipped users that exchange group encrypted messages in an anonymous and censorship-resistant manner can alleviate privacy and censorship issues. We experimentally evaluate message spread of such systems with simulations that run on a range of synthetic and real-world mobility inputs, thus extending the previous work. We show that such systems are feasible for a range of mobility and network settings, both under normal and under adversarial conditions, e.g., under the presence of nodes which jam the network or send spam.
Original language | English |
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Pages (from-to) | 1578-1591 |
Journal | IEEE Transactions on Information Forensics and Security |
Volume | 11 |
Issue number | 7 |
Early online date | 12 Apr 2016 |
DOIs | |
Publication status | Published - Jul 2016 |
Keywords
- client-server systems
- cryptography
- data privacy
- mobile computing
- peer-to-peer computing
- smart phones
- social networking (online)
- censorship-resistance
- client-server model
- distributed microblogging system
- mobile anonymous microblogging performance
- mobile anonymous microblogging privacy
- online social networking activity
- peer-to-peer microblogging system
- smartphone
- unencrypted message content
- Microblogging
- anonymity
- mobile networking
- peer-2-peer
- simulation