Perencanaan jaringan microcell 4g lte 900 mhz dengan model propagasi walfisch-ikegami pada taman andhang pangrenan

Khusnul, Karomah (2018) Perencanaan jaringan microcell 4g lte 900 mhz dengan model propagasi walfisch-ikegami pada taman andhang pangrenan. Diploma thesis, Institut Teknologi Telkom Purwokerto.

	Text Cover.pdf - Accepted Version Download (1MB)
Preview	Text Abstrak.pdf - Accepted Version Download (86kB) | Preview
Preview	Text Abstract.pdf - Accepted Version Download (85kB) | Preview
Preview	Text BAB I.pdf - Accepted Version Download (151kB) | Preview
Preview	Text BAB II.pdf - Accepted Version Download (573kB) | Preview
Preview	Text BAB III.pdf - Accepted Version Download (690kB) | Preview
	Text BAB IV.pdf - Accepted Version Restricted to Registered users only Download (1MB)
Preview	Text BAB V.pdf - Accepted Version Download (89kB) | Preview
Preview	Text Daftar Pustaka.pdf - Accepted Version Download (158kB) | Preview

Abstract

The need for telecommunications technology, especially cellular, is increasing on each day. Cellular communication is now not only carried out for activities inside buildings such as work or school, but also in outdoor environments such as amusement parks, which have many users. Andhang Pangrenan City Park is located in a suburban area and surrounded by buildings. With the large number of visitors each day, the level of cellular communication traffic becomes high, so it requires a network system to maintain the continuity of communication by all users within the location. In this final project, planning for microcell network 4G LTE 900 MHz will be carried out with COST 231 WalfischIkegami propagation model in Andhang Pangrenan Park. Planning is done by calculating the link budget based on coverage. Simulating this microcell network is using RPS 5.4 software, and is done with 4 simulation scenarios. The first scenario with 1 AP is placed on the rooftop of a building in the middle of the park. The second scenario with 1 AP is placed on the rooftop of one of the tallest buildings in a row of shops. The third scenario and the fourth scenario use 2 APs to bring up the SIR parameter values, by placing the randomized AP position. From the results of the simulations that have been carried out, the RSRP values for simulation scenarios 1 to 4 are -76.17 dBm, -75.96 dBm, -73.46 dBm, and 72.93 dBm. While the value of SIR for scenarios 3 and 4 is 6.19 dB and 6.61 dB. So that the best scenario is obtained, that is the fourth scenario with RSRP value of -72.93 dBm, classified as excellent in the KPI standard. And for the SIR value of 6.61 dB, it is classified as good in the KPI standard. Keywords: Long Term Evolution, microcell, Radiowave Propagation Simulator, Walfisch-Ikegami, link budget

Actions (login required)

View Item