A Rapid Emergency Deployment mobile communication node

2014 IEEE 19th International Workshop on Computer Aided Modeling and Design of Communication Links and Networks (CAMAD) Pub Date : 1900-01-01 DOI:10.1109/CAMAD.2014.7033252

Ioannis G. Askoxylakis, Antonis Makrogiannakis, A. Miaoudakis, Stefanos Papadakis, N. Petroulakis, M. Surligas, A. Traganitis, Nikolaos Vervelakis

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引用次数: 7

Abstract

In an Emergency and/or Crisis Situations (ECS) like earthquakes, floods, tsunamis, fires, terrorist attacks etc. the adequate operation of communication services is of extreme importance. History has shown that poor communication in such cases resulted in several casualties. In ECS fixed communication infrastructure might be unserviceable due to sustained damages. Evermore, the communication demand is highly increased in such cases resulting in poor quality of service as both civilians and authorities are trying to establish communications. In this paper, a Rapid Emergency Deployment mobile Communication (REDComm) node is presented. REDComm nodes include wireless communication technologies, to provide various telecommunication services in ECS and interoperability between them. It incorporates an 802.11a mesh cognitive radio technology that operates in the television broadcasting frequency bands to provide a backbone networking with increased range and flexibility. REDComm is constructed upon a trailer chassis able to minimize setup time, which is valuable in ECS. The presented platform is powered by a hybrid power source that combines thermal, solar and wind energy and eliminates the need for external power supply.

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快速应急部署移动通信节点

在地震、洪水、海啸、火灾、恐怖袭击等紧急和/或危机情况下，通信服务的充分运作是极其重要的。历史表明，在这种情况下，沟通不畅导致了一些伤亡。在ECS中，固定通信基础设施可能由于持续损坏而无法使用。此外，在这种情况下，通信需求大大增加，导致服务质量差，因为平民和当局都在努力建立通信。本文提出了一种快速应急部署移动通信(REDComm)节点。REDComm节点包括无线通信技术，在ECS中提供各种电信服务和它们之间的互操作性。它结合了在电视广播频带中运行的802.11a网状认知无线电技术，以提供具有更大范围和灵活性的骨干网络。REDComm构建在拖车底盘上，能够最大限度地减少安装时间，这在ECS中很有价值。该平台由混合电源供电，结合了热能、太阳能和风能，不需要外部电源。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2014 IEEE 19th International Workshop on Computer Aided Modeling and Design of Communication Links and Networks (CAMAD)

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