Mobile ad hoc networks form a vital component in realizing the vision of rapidly deployed
communications capability in environments with little or no pre-installed infrastructure. Such
environments arise in critical situations ranging from battlefield scenarios to natural and human-made
disaster events. Most ad hoc network routing and data forwarding algorithms are designed for networks
that are always connected. Node mobility, limited radio range, physical obstacles, severe weather, wide
deployment area or other physical factors, might preclude some nodes from communicating with others and
result in a partitioned network. In this talk, I will summarize our work which is concerned with the
development of a "Message Ferrying" (MF) scheme, inspired by its real life analog, that implements a
non-traditional "store, carry and forward" routing paradigm using node mobility to overcome network
partitioning. In the MF scheme, a set of mobile nodes called message ferries takes responsibility for
carrying messages between disconnected nodes. In this talk I will summarize our research efforts in the
design and evaluation of efficient data delivery services using message ferrying techniques. These
include: 1) design of ferry routing schemes for single and multiple interacting ferries, 2) protocols
that make use of proactive node and ferry mobility, and 3) use of message ferries to save energy. I
will then place our message ferrying work in the larger context by describing a novel taxonomy for
mobile wireless networks, which admits various ranges of disconnection and mobility.
Mostafa Ammar is a Regents' Professor with the College of Computing at Georgia Tech. He has been with
Georgia Tech since 1985. He received the S.B. and S.M. degrees from the Massachusetts Institute of
Technology in 1978 and 1980, respectively and the Ph.D. in Electrical Engineering from the University
of Waterloo, Ontario, Canada in 1985. Dr. Ammar's research interests are in network architectures,
protocols and services. He has contributions in the areas of multicast communication and services,
multimedia streaming, content distribution networks, network simulation and most recently in
disruption-tolerant networks. He was the co-recipient of the Best Paper Awards at the 7th WWW
conference for the paper on the "Interactive Multimedia Jukebox" and the 2002 Parallel and Distributed
Simulation (PADS) conference for the paper on "Updateable Network Simulation". He served as the
Editor-in-Chief of the IEEE/ACM Transactions on Networking from 1999 to 2003. He is the co-TPC Chair
for Co-Next 2006 and ACM SIGMETRICS 2007. Dr. Ammar is a Fellow of the IEEE and a Fellow of the ACM.