Research Article
Design Of Optical Fiber Network In Daik Sub District, Lingga Regency, Riau Islands Case Study At Pt. Telkom Rikep, Indonesia
@INPROCEEDINGS{10.4108/eai.11-10-2022.2326281, author={Lilis Agustina Sinaga and Sapta Nugraha and Rusfa Rusfa}, title={Design Of Optical Fiber Network In Daik Sub District, Lingga Regency, Riau Islands Case Study At Pt. Telkom Rikep, Indonesia}, proceedings={Proceedings of the 1st International Conference on Sustainable Engineering Development and Technological Innovation, ICSEDTI 2022, 11-13 October 2022, Tanjungpinang, Indonesia}, publisher={EAI}, proceedings_a={ICSEDTI}, year={2023}, month={1}, keywords={fiber optic optic system power link budget rise time budget bit error rate}, doi={10.4108/eai.11-10-2022.2326281} }
- Lilis Agustina Sinaga
Sapta Nugraha
Rusfa Rusfa
Year: 2023
Design Of Optical Fiber Network In Daik Sub District, Lingga Regency, Riau Islands Case Study At Pt. Telkom Rikep, Indonesia
ICSEDTI
EAI
DOI: 10.4108/eai.11-10-2022.2326281
Abstract
A Fiber optic network has a reliable performance in transmitting the information. This network which is developed in Daik Village, Lingga Regency, Riau Islands has high data transfer rates and large bandwidth. Its development aimed to support city administration, where the network is connected to 12 government offices. Therefore, this study aims to design a fiber network using the optic system as a simulation and theoretical calculation of parameters to determine its feasibility. The design carried out showed that the maximum attenuation value on the farthest link is 16.15 dBm, while the maximum power received is - 11.743 dBm. Also, the results for the bit error rate is 0 because the time value on the uplink and downlink are 0.2502280209 ns and 0.2533267605 ns respectively. The value of the parameter based on theoretical calculations and simulation is in line with the standards set by the International Telecommunication Union (ITU-T) and PT. Telkom standards such as Gigabit Passive Optical Network (GPON). This standard has parameter values in the form of maximum damping and receiver sensitivity of 27 dBm and -28 dBm respectively. From the digital link, the total transmission time is less or equal to 70% of the Non-Return to Zero (NRZ) bit. The results obtained indicated the design carried out is feasible because it has met the established standards such as the number of bit error rate (BER) that is 10^(-9).