建立高效节能和强大的灾害响应网络

V. Shah, Satyaki Roy, S. Silvestri, Sajal K. Das
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引用次数: 6

摘要

在大规模灾难(如地震)发生后,现有的通信基础设施往往严重受损,无法在幸存者、响应者和协调中心之间及时交换信息。通常,一个临时网络,称为灾难响应网络(DRN),使用智能设备,移动基站和易于部署的蜂窝天线建立。然而,由于环境逆境和硬件故障,这种网络面临着设备能量快速消耗和组件故障的挑战。最新的文献通过智能路由解决了能源挑战,但是DRN对组件故障的鲁棒性在很大程度上没有得到解决。在本文中,我们研究了为drn设计一种新颖的网络拓扑结构,它既节能又抗组件设备故障。具体来说,目标是从原始DRN(称为sparse -DRN)构建一个稀疏结构,同时确保存在连接的树主干。我们的性能评估表明,Sparse-DRN在能源效率和网络鲁棒性之间提供了一个很好的权衡,同时保证了QoS要求,即数据包传递和网络延迟。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Towards energy-efficient and robust disaster response networks
In the aftermath of a large-scale disaster (such as earthquake), existing communication infrastructures are often critically impaired, preventing timely information exchange between the survivors, responders, and the coordination center. Typically, a temporary network, called Disaster Response Network (DRN), is set up using smart devices, movable base stations and easily deployable cellular antennas. However, such networks are challenged by rapid devices' energy depletion and component failures due to environmental adversities and hardware faults. State-of-the-art literature address energy challenges through intelligent routing, however robustness of DRN against component failures is largely unaddressed. In this paper, we investigate designing a novel network topology for DRNs, which is both energy-efficient and robust against component devices' failures. Specifically, the objective is to construct a sparse structure from the original DRN (termed, Sparse-DRN) while ensuring that there exists a connected tree backbone. Our performance evaluation shows that the Sparse-DRN offers a good trade-off between the energy efficiency and network robustness, while ensuring the QoS requirements i.e., packet delivery and network latency.
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