3.5 GHz频段5G NR规划:印尼工业区案例研究

Rai Nur Esa, A. Hikmaturokhman, Achmad Rizal Danisya
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引用次数: 13

摘要

本研究采用Mentum Planet 7.2.1软件模拟频率为3.5 GHz的5G NR网络规划,并以总面积为5 km2的普洛洞工业区为例,采用覆盖侧规划方法。本规划采用5G NR规划方法,按照规划采用传播模型,即基于3GPP TR 38.901标准的UMa (Urban Macro - Street canyon)模型,上行采用8种设计场景;和下行;户外到户外(O2O)和室外到室内(O2I);视线(LOS)和非视线(NLOS)条件。仿真结果表明,下行场景下的设计由于受链路预算参数的影响,下行场景下的干扰余量大于上行场景下的干扰余量,需要更多的站点来完成上行场景下的区域业务;在观测到的所有情景参数中,情景1(下行- o20 - los)的平均SS-RSRP最高,为-92.95 dBm,情景2(上行- o20 - los)的平均SS-RSRP最低,为-97.16 dBm。平均SS-RSRP值受情景1中SS-RSRP参数最高的规划区域的站点数量的影响。
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5G NR Planning at Frequency 3.5 GHz : Study Case in Indonesia Industrial Area
This research used the 5G NR network planning with the frequency of 3.5 GHz simulated using the Mentum Planet 7.2.1 software with the planning method in the coverage side by employing a case study in Pulogadung industrial zone with a total area of 5 km2. This planning used the 5G NR planning method with the propagation model in accordance with the plan, that is, UMa (Urban Macro – Street canyon) model based on the standard of 3GPP TR 38.901, using 8 design scenarios for the uplink; and downlink; outdoor-to-outdoor (O2O) and outdoor-to-indoor (O2I); line of sight (LOS) and non-line of sight (NLOS) conditions. The simulation result showed that the design with the downlink scenario required more sites to fulfill the area services that the uplink scenario since influenced by the link budget parameter, that is, the value of interference margin downlink which is greater than that of the uplink margin interference; From all scenario parameters of SS-RSRP observed, scenario 1 (downlink-O2O-LOS) had the highest average SS-RSRP of -92.95 dBm and the lowest average SS-RSRP resulted from the scenario 2 (uplink-O2O-LOS) of -97.16 dBm. The average SS-RSRP value was influenced by the number of sites covering the planning areas that scenario 1 had the highest SS-RSRP parameter.
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