Nnebe Scholastica Ukamaka, Odeh Isaac Ochim, Okafor Chinenye Sunday, Ugbe Oluchi Christiana
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引用次数: 1
摘要
该研究评估了使用第三代通用移动通信系统(UMTS)和第四代长期演进(LTE)网络的密集异构网络中的干扰。umt /LTE异构网络决定了两种通信系统共存时的干扰程度,以及如何通过从umt迁移到下载速度更快、容量更大的LTE来改善网络。在现场调查过程中,采用Techno lite 8第三代(3G)和Infinix Pro 6第四代(4G)测量网络接收信号强度(RSS)。使用频谱分析仪检测和跟踪UE干扰。UMTS和LTE的路径损耗指数分别为2.6和3.2。Shannon容量定理计算LTE和UMTS的容量。当信噪比(SINR)作为服务质量(QoS)指标时,由于相邻干扰,MATLAB的信道容量图与Shannon的信道容量图不匹配。对于香农信道容量方程,UMTS的R2为0.54,LTE的R2为0.57。相邻信道干扰(ACI)用户设备减少了网络容量,降低了其他客户的QoS。
Evaluating the level of inteference in UMTS/LTE heterogeneous network system
The study evaluated interference in a dense heterogeneous network using third-generation universal mobile telecommunication systems (UMTS) and fourth-generation long term evolution (LTE) networks LTE. The UMTs/LTE heterogeneous network determines the level of interference when the two communication systems coexist and how to improve the network by migrating from UMTs to LTE, which has a faster download speed and larger capacity. Techno lite 8 on third generation (3G) and Infinix Pro 6 on fourth generation (4G) were used to measure network the received signal strength (RSS) during site investigation. UE interference was detected and traced using a spectrum analyzer. UMTS and LTE path loss exponents are 2.6 and 3.2. Shannon's capacity theorem calculated LTE and UMTS capacity. When signal to interference and noise ratio (SINR) was used as a quality of service (QoS) indicator, MATLAB channel capacity plots did not match Shannon's due to neighboring interference. UMTS had an R2 of 0.54 and LTE 0.57 for the Shannon channel capacity equation. Adjacent channel interference (ACI) user devices reduce network capacity, lowering QoS for other customers.
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