Feasibility Analysis of Implementation 3G Macro Additional Sector JABO Area using Techno-Economic Approach
DOI:
https://doi.org/10.22441/incomtech.v7i3.1173Keywords:
Low Throughput, users demand, Revenue, CAPEX, OPEX, NPV, IRR, PBPAbstract
The increasing number of operators, making competition in the telecommunications industry are becoming increasingly stringent. These circumstances spurred operators to compete in achieving the best quality of services. Macro Additional 3G Sector (LTC) Project is one effort of the operator in maintaining the quality of data services. The general philosophy of the design of telecommunications networks are getting the best performance with minimal implementation costs. In this work will be analyzed with the techno-economic approach for the feasibility of the implementation of 3G Macro Additional Sector Project by operator telecommunication in Jakarta. Analysis model used is based on the principle of techno-economic by throughput and number of user approach with bottom-up models, to determine the design of 3G Macro Additional Sector Project, and then measure the feasibility of the costs incurred for the implementation of 3G Macro Additional the Sector Project.Downloads
References
Clara Adila. (2013). Analysis Techno Economy of Development Planning EVDO Rev. B Network on Telkom Flexi Divre III West Java Area. A thesis, Institute of Technology Telkom
Dahlman, E., Parkvall, S., Skold, J., & Beming, P. (2010). 3G evolution: HSPA and LTE for mobile broadband. Academic press.
Ferreiro, A., Derkacz, J., Dorgeuille, F., Huelsermann, R., Quagliotti, M. and Verbrugge, S. (2007). Techno-economic benchmarking of NOBEL solutions for end-to-end broadband communications. In Proceedings of NOC2007, the 12th European Conference on Networks and Optical Communications (pp. 352-359).
Frias, Z. and Pérez, J. (2012). Techno-economic analysis of femtocell deployment in long-term evolution networks. EURASIP journal on wireless communications and networking, 2012(1), pp.1-15.
Harno, J., Kumar, K.R., Eskedal, T.G., Venturin, R., Katsianis, D. and Varoutas, D. (2007). Techno-economic evaluation of 3G and beyondƒ mobile business alternatives. NETNOMICS: Economic Research and Electronic Networking, 8(1-2), pp.5-23.
Jha, A., & Saha, D. (2015, December). Techno-economic assessment of the potential for LTE based 4G mobile services in rural India. In 2015 IEEE International Conference on Advanced Networks and Telecommuncations Systems (ANTS) (pp. 1-6). IEEE.
Ketty Siti Salamah. (2016). Analisa jaringan Long Term Evolution (LTE) pada frekuensi700MHz dan 1800MHz Area Kabupaten Bekasi dengan pendekatan tekno ekonomi. A thesis, Mercu Buana University
Knoll, T.M. (2012). LTE Network Design from a Techno-Economic Perspective. lte-business-model. de, pp.1-68.
Krizanovic, V., Zagar, D. and Grgic, K. (2011). Techno-economic analyses of wireline and wireless broadband access networks deployment in Croatian rural areas. In Telecommunications (ConTEL), Proceedings of the 2011 11th International Conference on (pp. 265-272). IEEE.
Moral, A., Vidal, J., Pérez, J., Agustín, A., Marina, N., & Høst-Madsen, A. (2011). Technoeconomic evaluation of cooperative relaying transmission techniques in OFDM cellular networks. EURASIP Journal on Advances in Signal Processing, 2011, 6.
Nayan, N., Zhao, R., Zhelev, N., Knospe, W. and Machuca, C.M. (2012). Techno-economic analysis for Rural Broadband Access Networks. In Proceedings of the Eighth Advanced International Conference on Telecommunications AICT, Vol. 2012.
Ovando, C., Pérez, J., & Moral, A. (2015). LTE techno-economic assessment: The case of rural areas in Spain. Telecommunications Policy, 39(3), 269-283.
Park, H.Y. and Chang, S.G. (2004). Mobile network evolution toward IMT-2000 in Korea: a techno-economic analysis. Telecommunications Policy, 28(2), pp.177-196.
Prasad, R. and Velez, F.J. (2010). WiMAX networks: techno-economic vision and challenges. Springer Science & Business Media.
Rao, A. M., Weber, A., Gollamudi, S., & Soni, R. (2009). LTE and HSPA+: Revolutionary and evolutionary solutions for global mobile broadband. Bell Labs Technical Journal, 13(4), 7-34.
Ricciato, F., Vacirca, F., Rupp, M., Fleischer, W., & Motz, J. (2006). Passive tomography of a 3G network: challenges and opportunities. na.
Smura, T. (2005). Competitive potential of WiMAX in the broadband access market: a techno-economic analysis. Proceedings of ITS 2005.
Usep Taufiq Hidayat. (2013). Analisa perbandingan perancangan dan kelayakan implementasi jaringan lte dan wimax di area urban , sub urban, dan rural dengan pendekatan techno economy. A thesis, Institute of Technology Telkom
Usmiati. (2014). Analisa biaya pembangunan dan dimensioning jaringan layanan Broadbandberbasis Long Term Evolution (LTE) Area Jakarta Barat. A thesis, Mercu Buana University.
Telkomsel (2015). Annual Report, accessed from: http://www.telkomsel.com/about/investor-relations/25-Annual-Report.html
XL (2015). Annual Report, accessed from: http://www.xl.co.id/corporate/id/inves tor/informasi/laporan-tahunan
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