TY - GEN
T1 - Comparative Performance Evaluation of Line Coding Schemes for Uplink Transmission in Single and WDM Channels FSO-HAP Systems Across Varied Altitude and Weather Scenarios
AU - Suryono, Valerie Olive
AU - Natali, Yus
AU - Apriono, Catur
N1 - Publisher Copyright:
© 2024 IEEE.
PY - 2024
Y1 - 2024
N2 - The demand for fast, reliable, and adaptable communication solutions has led to increased interest in wireless technologies. Free-Space Optical (FSO) communication systems with the integration of FSO with High Altitude Platforms (HAPs) presents unique opportunities for enhancing connectivity. However, challenges arise in optimizing system performance amidst varying altitude and weather conditions. This paper conducts a thorough comparative evaluation of line coding schemes for uplink transmission in FSO-HAP systems across diverse scenarios using OptiSystem. Results indicate NRZ as the top performer, excelling in both single-channel and Wavelength Division Multiplexing (WDM) setups due to its simplicity and spectral efficiency. RZ demonstrates optimal performance, particularly in WDM systems spanning up to 50km, while NRZ and RZ emerge as preferred options for long-distance optical communication. The Q-Factor for single channels recorded 39.067 for RZ and 59.926 for NRZ. Meanwhile, the average Q-Factor for WDM channels is 14.667 for RZ and 7.245 for NRZ. Caution is warranted in HAPs deployment, as current capabilities may be insufficient, particularly under adverse weather conditions.
AB - The demand for fast, reliable, and adaptable communication solutions has led to increased interest in wireless technologies. Free-Space Optical (FSO) communication systems with the integration of FSO with High Altitude Platforms (HAPs) presents unique opportunities for enhancing connectivity. However, challenges arise in optimizing system performance amidst varying altitude and weather conditions. This paper conducts a thorough comparative evaluation of line coding schemes for uplink transmission in FSO-HAP systems across diverse scenarios using OptiSystem. Results indicate NRZ as the top performer, excelling in both single-channel and Wavelength Division Multiplexing (WDM) setups due to its simplicity and spectral efficiency. RZ demonstrates optimal performance, particularly in WDM systems spanning up to 50km, while NRZ and RZ emerge as preferred options for long-distance optical communication. The Q-Factor for single channels recorded 39.067 for RZ and 59.926 for NRZ. Meanwhile, the average Q-Factor for WDM channels is 14.667 for RZ and 7.245 for NRZ. Caution is warranted in HAPs deployment, as current capabilities may be insufficient, particularly under adverse weather conditions.
KW - FSO
KW - HAPs
KW - Line Coding
KW - WDM
UR - http://www.scopus.com/inward/record.url?scp=85204953113&partnerID=8YFLogxK
U2 - 10.1109/IES63037.2024.10665806
DO - 10.1109/IES63037.2024.10665806
M3 - Conference contribution
AN - SCOPUS:85204953113
T3 - 2024 International Electronics Symposium: Shaping the Future: Society 5.0 and Beyond, IES 2024 - Proceeding
SP - 201
EP - 206
BT - 2024 International Electronics Symposium
A2 - Yunanto, Andhik Ampuh
A2 - Ramadhani, Afifah Dwi
A2 - Prayogi, Yanuar Risah
A2 - Putra, Putu Agus Mahadi
A2 - Rahmawati, Weny Mistarika
A2 - Rusli, Muhammad Rizani
A2 - Humaira, Fitrah Maharani
A2 - Nadziroh, Faridatun
A2 - Sa'adah, Nihayatus
A2 - Muna, Nailul
A2 - Rizki, Aris Bahari
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 26th International Electronics Symposium, IES 2024
Y2 - 6 August 2024 through 8 August 2024
ER -