Abstract
A number of disasters in various places of the planet have caused an extensive loss of lives, severe damages to properties and the environment, as well as a tremendous shock to the survivors. For relief and mitigation operations, emergency responders are immediately dispatched to the disaster areas. Ubiquitous and robust communications during the emergency response operations are of paramount importance. Nevertheless, various reports have highlighted that after many devastating events, the current technologies used, failed to support the mission critical communications, resulting in further loss of lives. Inefficiencies of the current communications used for emergency response include lack of technology inter-operability between different jurisdictions, and high vulnerability due to their centralized infrastructure. In this article, we propose a flexible network architecture that provides a common networking platform for heterogeneous multi-operator networks, for interoperation in case of emergencies. A wireless mesh network is the main part of the proposed architecture and this provides a back-up network in case of emergencies. We first describe the shortcomings and limitations of the current technologies, and then we address issues related to the applications and functionalities a future emergency response network should support. Furthermore, we describe the necessary requirements for a flexible, secure, robust, and QoS-aware emergency response multi-operator architecture, and then we suggest several schemes that can be adopted by our proposed architecture to meet those requirements. In addition, we suggest several methods for the re-tasking of communication means owned by independent individuals to provide support during emergencies. In order to investigate the feasibility of multimedia transmission over a wireless mesh network, we measured the performance of a video streaming application in a real wireless metropolitan multi-radio mesh network, showing that the mesh network can meet the requirements for high quality video transmissions.
Highlights
Disasters in various places of the planet have caused an extensive loss of lives, severe damages in properties and a tremendous shock to the survivors and their relatives
We suggest the very tight coupling approach where Operator mesh routers and gateways (OMRGs) are “glued” to the backbone that connects the various base stations (BSs) to their corresponding Core Network (CN)
Ij), where P is a priority metric, i is referred to users, j to applications, and I refers to several input parameters that can include: (i) the monitored data from the network, (ii) input from users, (iii) location-based information that for example shows that a person is located in a disaster area and needs to be assigned a higher communication priority
Summary
Disasters in various places of the planet have caused an extensive loss of lives, severe damages in properties and a tremendous shock to the survivors and their relatives. We address issues related to the applications and functionalities a future emergency response network should support, and the shortcomings and limitations of the current technologies. Video For emergency response operations, first responders often need to share vital information This may necessitate the transmission of real time video to a control center. PTT over cellular (PoC) is the pushto-talk voice service used in mobile communications This provides one-to-one and one-to-many communications based on half-duplex VoIP technology. Suspicious actions outside a bank can trigger the transmission of live video footage to the nearby police cars (multicasting) Current technologies and their limitations/ benefits for emergency response communications This section describes several technologies used for massive communications, focusing on their shortcomings and limitations, as well as on their benefits for emergency communications.
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