| Unlike normal wireless ad hoc networks, end-to-end connection may not exist in DTNs Thus, the Message Ferrying (MF) scheme has been proposed as a strategy for providing connectivity in disruption tolerant network(DTN)s, where a set of nodes called ferries are responsible for carrying messages for all nodes in the networks. In such store-and-forward networks, buffers at ferry and regular nodes become critical resources and need to be allocated fairly among different users. In this paper, we propose a max-min fairness model for DTN with a message ferry. Based on this model, we propose a buffer allocation scheme that can achieve fairness among different sessions. We also design an integrated buffer and routing management scheme called buffer efficient routing scheme (BERS). Via simulations, we demonstrate that our fair buffer allocation scheme assigns buffers fairly to different sessions. Our simulation studies also show that BERS can achieve higher session throughput and lower packet delivery latency than the only-store-and-forward routing scheme that is typically used in a message ferry system. . |
| Dr M. Chuah is an associate professor in CSE Dept at Lehigh University. Before joining Lehigh in Jan 2004, she spent 12 years at Bell Laboratores where she was a DMTS and a Technical Manager. While at Bell Laboratories, she designed future wireless internet systems, mobility and resource management schemes in wireless systems. She has been awarded 41 US patents in the area of wireless MAC, IP protocols, mobility management etc. and have 20 more pending. Her current research interests are architecture and protocol design for disruption tolerant networks, network security, adhoc/sensor networks. |