Analisa Kinerja Pada Perencanaan TD-LTE ADVANCED Studi Kasus Kota Bandung
Submitted : 2020-05-16, Published : 2020-08-03.
Abstract
In LTE Advanced technology there are two methods used in the duplexing process, there are frequency division duplex (FDD) wherein this duplexing concept communication is divided based on the frequency and the other is time division duplex (TDD) where communication is divided based on the time. Duplexing using the TDD method has advantages of handling data-based services that the majority have Non-Guarantee Bit Rate (N-GBR) characteristics because most of these services do not require a minimum bit rate to be able to work and this is an advantages because nowadays people like to use data-based services. So in this LTE Advanced network planning using the TDD method, frequency 2300 MHz for TD-LTE advanced, and parameters that to be the main focus are throughputs, reference signal received power (RSRP), reference signal strength indicator (RSSI), carrier to interference noise ratio (CINR), and block error rate (BLER). And the result of the simulations from TD-LTE Advanced planning are the mean of throughput value is 3,5 Mbps, mean of RSRP value is -110,8 dBm, mean of RSSI value is -72,36 dBm, mean of CINR value is 4,81 dB, and mean of BLER value is 0,07%.
Keywords
Full Text:
PDFReferences
Astély, D., Dahlman, E., Furuskär, A., Jading, Y., Lindström, M., & Parkvall, S. (2009). LTE: the evolution of mobile broadband. IEEE Communications magazine, 47(4), 44-51
Dalia Abdalla Omer, E., Babiker, A. A., & Mustafa, N. (2015). LTE FDD vs LTE TDD from a Qos Perspective. IOSR Journal of Electronics and Communication Engineering, 10(21), 2278–2834
Chan, P. W., Lo, E. S., Wang, R. R., Au, E. K., Lau, V. K., Cheng, R. S., ... & Letaief, K. B. (2006). The evolution path of 4G networks: FDD or TDD?. IEEE Communications Magazine, 44(12), 42-50.
Soehartono, S. E. (2012, October). FDD and TDD comparison for consideration of slot spectrum assignment in Indonesia. In 2012 7th International Conference on Telecommunication Systems, Services, and Applications (TSSA) (pp. 266-269). IEEE.
Yonis, A. Z., Abdullah, M. F. L., & Ghanim, M. F. (2012). LTE-FDD and LTE-TDD for cellular communications. Proceeding, Progress in.
Chandra, D., Yusnita, S., Aulia, S., & Ardila, N. Perencanaan Jaringan 4G LTE Dengan Teknologi FDD Pada Frekuensi 1800 MHz Berbasis Cost–231 Hatta Propagation Model di Kota Padang.
ElNashar, A., El-Saidny, M. A., & Sherif, M. (2014). Design, deployment and performance of 4G-LTE networks: A practical approach. John Wiley & Sons.
Kurniawan, U. (2008). Pengantar Ilmu Telekomunikasi, Penerbit Informatika.
Cox, C. (2012). An introduction to LTE: LTE, LTE-advanced, SAE and 4G mobile communications. John Wiley & Sons.
Sauter, M. (2014). From GSM to LTE-advanced: an introduction to mobile networks and mobile broadband. John Wiley & Sons.
Article Metrics
Abstract view: 650 timesDownload  : 308 times
This work is licensed under a Creative Commons Attribution 4.0 International License.
Refbacks
- There are currently no refbacks.