使用以可靠性为中心的维护(RCM)和生命周期成本(LCC)优化基站收发器(BTS)维护的维护时间和现场人员总数

Rd. Rohmat Saedudin, R. A. Anugraha, Rachmad Eka
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引用次数: 3

摘要

在通信网络体系结构中,BTS扮演着非常重要的角色。如果导致BTS的中断和BTS的倒闭,就会导致潜在收入的损失,也会导致消费者对公司的忠诚度下降。因此,需要一种有效的方法来治疗防弹少年团和有效的防弹少年团,这样才能适当地保持可用性。本研究处理BTS采用的方法是RCM法(Reliability Centered Maintenance,以可靠性为中心的维护),根据重要功能和数据破坏确定BTS现有设备的处理优先级,从而获得其价值MTTF和MTTR,以及LCC法(Life Cycle Cost,生命周期成本),确定处理BTS的最优场址机组数量。采用RCM方法,根据损伤数据确定关键部件,得到两组设备作为关键部件。它们是发电机和传输模块BCKM。对上年现场数据采集和二次数据进行计算和数据处理,MTTF BCKM模块值为1109.635小时,MTTR BCKM值为6095小时,发电机值为1647小时,MTTF值为373小时,MTTR发电机值为3.6小时。而根据计算结果和LCC方法的数据处理,BTS处理所需的现场人员数量,基于成本得到的最优数量为4名现场人员。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The optimization of maintenance time and total site crew for Base Transceiver Station (BTS) maintenance using Reliability Centered Maintenance (RCM) and Life Cycle Cost (LCC)
In a telecommunications network architecture, BTS holds a very important role. In the event that causes disruption of BTS and BTS to be down, it will result in loss of potential revenue and lead to loss of consumer loyalty in the company. Hence the need for an effective method of treatment BTS and BTS efficient so that availability can be maintained properly. The method used in the treatment of BTS in this study is the RCM method (Reliability Centered Maintenance) to determine treatment priorities of existing equipment in the BTS based on vital functions and data destruction in order to obtain its value MTTF and MTTR, as well as LCC method (Life Cycle Cost) to determine the optimal number of sites crew for treatment BTS. By using the RCM method, the results of the determination of the critical components based on damage data, are obtained two set of equipment as critical components. They are generator and transmission module BCKM. Calculation and data processing of field data acquisition and secondary data the previous year, the value of the MTTF BCKM module is 1109.635 hours and MTTR BCKM 6,095 hours, while the value of the generator is 1647,373 hours MTTF and MTTR generator is 3.6 hours. While the number of site crew required in the BTS treatment based on the results of calculation and data processing with the LCC method, obtained the most optimal amount based on the cost is 4 site crews.
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