Abstract is missing.
- Determining the peer resource contributions in a P2P contractBehrooz Khorashadi, Xin Liu, Dipak Ghosal. 2-9 [doi]
- Scalability evaluation of a peer-to-peer market place based on micro paymentsGiancarlo Ruffo, Rossano Schifanella. 10-17 [doi]
- Scalable supernode selection in peer-to-peer overlay networksVirginia Mary Lo, Dayi Zhou, Yuhong Liu, Chris GauthierDickey, Jun Li. 18-25 [doi]
- A packet snif.ng and synchronization technique to boost P2P satellite networksRafael Asorey-Cacheda, Francisco J. González-Castaño, M. Crespo-Alonso, Luca Caviglione, Franco Davoli. 28-32 [doi]
- A packet-level traffic model of StarcraftAlberto Dainotti, Antonio Pescapè, Giorgio Ventre. 33-42 [doi]
- An empirical study of data redundancy for high availability in large overlay networksGiovanni Chiola. 43-50 [doi]
- A methodology for P2P file-sharing traffic detectionAngelo Spognardi, Alessandro Lucarelli, Roberto Di Pietro. 52-61 [doi]
- 2AMichele Amoretti, Matteo Bisi, Francesco Zanichelli, Gianni Conte. 62-69 [doi]
- 2-Chord HalvedGennaro Cordasco, Alessandra Sala. 72-79 [doi]
- Improving semantic routing efficiencyNjål T. Borch. 80-86 [doi]
- Peer-Tree: a peer-to-peer message forwarding structure for relaying messages in mobile applicationsJun Liu. 87-94 [doi]
- Modeling and analysis of random walk search algorithms in P2P networksNabhendra Bisnik, Alhussein A. Abouzeid. 95-103 [doi]
- Comet: a scalable coordination space for decentralized distributed environmentsZhen Li, Manish Parashar. 104-111 [doi]