Abstract
The evolution of communication network comes
from the need for users to stay connected anytime and anywhere.
Modernization of the network continues to be done to increase
bandwidth capacity in order to obtain an increase in multimedia
services, especially in urban areas. Of various transmission
media, optical fiber is the best choice to support reliable
communication networks. One of the optical fiber communication technologies is Fiber to the Home (FTTH). This study
proposes FTTH network design with Gigabit Capable Passive
Optical Network (GPON) technology aimed at housing in urban
areas. The design uses aerial and duct-aerial cabling systems.
The design analysis is carried out based on the parameters of the
link power budget, rise time, Bit Error Rate (BER), components
and costs required. The value of the power budget link for the
uplink and downlink are -22.792 dBm and -23.120 dBm. The rise
time value for uplink and downlink are 0.256 ns and 0.258 ns,
while the BER value is 14.628 x 10-12. The calculation results
show that the design meets the required parameters, hence, the
proposed network can be implemented. For the cost components
required by the aerial system, it is 11.56% less than of the ductaerial sistem.
from the need for users to stay connected anytime and anywhere.
Modernization of the network continues to be done to increase
bandwidth capacity in order to obtain an increase in multimedia
services, especially in urban areas. Of various transmission
media, optical fiber is the best choice to support reliable
communication networks. One of the optical fiber communication technologies is Fiber to the Home (FTTH). This study
proposes FTTH network design with Gigabit Capable Passive
Optical Network (GPON) technology aimed at housing in urban
areas. The design uses aerial and duct-aerial cabling systems.
The design analysis is carried out based on the parameters of the
link power budget, rise time, Bit Error Rate (BER), components
and costs required. The value of the power budget link for the
uplink and downlink are -22.792 dBm and -23.120 dBm. The rise
time value for uplink and downlink are 0.256 ns and 0.258 ns,
while the BER value is 14.628 x 10-12. The calculation results
show that the design meets the required parameters, hence, the
proposed network can be implemented. For the cost components
required by the aerial system, it is 11.56% less than of the ductaerial sistem.
| Original language | English |
|---|---|
| Journal | Jurnal Nasional Teknik Elektro dan Teknologi Informasi |
| Publication status | Published - 2020 |
