Adaptive radio propagation model for maximizing performance efficiency in smart city disaster management application

Sushant Mangasuli, Mahesh Kaluti
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Abstract

Climate change poses several environmental threats like floods to urban environment; thus, effective and reliable communication of emergency information is needed during massive breakdown of network infrastructure. This paper presents a mobile adhoc network (MANETs) based effective information such as calls, image, and videos communication system that is compatible with current 3GPP and 5G communication network. Here in maintaining connectivity the information is communicated between different MANET nodes in a multi-hop manner. However, designing radio propagation is challenging considering higher local emergency request congestion at different terrain with varying speed of users. The current radio propagation model is designed without considering the effect of line-of-sight between communicating device and are not adaptive to different environment considering urban disaster management environment. This paper develops an adaptive radio propagation (ARP) model namely expressway, city and semiurban. Then, in reducing congestion and improving network performance efficiency the work introduced an adaptive medium access control (AMAC) protocol. The MAC incorporates a dynamic network controller (DNC) to optimize the contention window size in dynamic manner according to current traffic demands. The AMAC protocol achieves much improved throughput with lesser packet loss in comparison with existing MAC (EMAC) model considering different radio propagation model introduced in this work.
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自适应无线电传播模型,在智慧城市灾害管理应用中实现性能效率最大化
气候变化给城市环境带来了洪水等多种环境威胁;因此,在网络基础设施出现大规模故障时,需要有效、可靠的应急信息通信。本文介绍了一种基于移动 adhoc 网络(MANET)的有效信息(如通话、图像和视频)通信系统,该系统与当前的 3GPP 和 5G 通信网络兼容。在保持连接的过程中,信息在不同的 MANET 节点之间以多跳方式进行通信。然而,考虑到不同地形的本地紧急请求拥塞程度较高,且用户的使用速度各不相同,无线电传播的设计具有挑战性。目前的无线电传播模型在设计时没有考虑到通信设备之间的视线影响,也不能适应城市灾害管理环境下的不同环境。本文建立了一个自适应无线电传播(ARP)模型,即高速公路、城市和半城市模型。然后,为减少拥塞和提高网络性能效率,该工作引入了自适应介质访问控制(AMAC)协议。介质访问控制结合了动态网络控制器(DNC),可根据当前流量需求动态优化竞争窗口大小。与现有的介质访问控制(EMAC)模型相比,考虑到本研究中引入的不同无线电传播模型,AMAC 协议在减少数据包丢失的同时,大大提高了吞吐量。
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