Networking for critical conditions

To enhance the preparedness of federal and state agencies to effectively manage federal or state recovery efforts in response to a broad spectrum of emergencies, we propose a hybrid adaptive network that will adopt currently available off-the-shelf wireless network devices and integrate them quickly into a scalable, reliable, and secure network with a minimum of human intervention for configuration and management. This model will serve as the framework for various rescue missions for securing and distributing critical resources. We investigate different technologies and network strategies and integrate them into the proposed network model to provide seamless support to heterogeneous environments including wireline nodes, ad hoc and sensor network nodes, and network devices based on different standards. In this article we present the network architecture and identify the key technical aspects of its management, security, QoS, and implementation.

[1]  H. T. Mouftah,et al.  QoS routing for wireless ad hoc networks: problems, algorithms, and protocols , 2005, IEEE Communications Magazine.

[2]  Shugong Xu,et al.  Does the IEEE 802.11 MAC protocol work well in multihop wireless ad hoc networks? , 2001, IEEE Commun. Mag..

[3]  Martin Mauve,et al.  A survey on position-based routing in mobile ad hoc networks , 2001, IEEE Netw..

[4]  Mi Lu,et al.  Channel Access-Based Self-Organized Clustering in Ad Hoc Networks , 2003, IEEE Trans. Mob. Comput..

[5]  Jörg Widmer,et al.  Contention-based forwarding for mobile ad hoc networks , 2003, Ad Hoc Networks.

[6]  JongWon Kim,et al.  Quality-of-service mapping mechanism for packet video in differentiated services network , 2001, IEEE Trans. Multim..

[7]  Swades De,et al.  On hop count and euclidean distance in greedy forwarding in wireless ad hoc networks , 2005, IEEE Communications Letters.

[8]  Vijay Varadharajan,et al.  Security for cluster based ad hoc networks , 2004, Comput. Commun..

[9]  Nirwan Ansari,et al.  TCP in wireless environments: problems and solutions , 2005, IEEE Communications Magazine.

[10]  Michele Zorzi,et al.  Geographic Random Forwarding (GeRaF) for Ad Hoc and Sensor Networks: Multihop Performance , 2003, IEEE Trans. Mob. Comput..

[11]  Nirwan Ansari,et al.  Adaptive trust-based anonymous network , 2007, Int. J. Secur. Networks.

[12]  Mahmoud Naghshineh,et al.  QoS-enabled broadband mobile access to wireline networks , 2002, IEEE Commun. Mag..