ATM VSAT Switchover Planning Telkom-1 Satellite Case Study to BRIsat Satellite

ATM VSAT Switchover Planning Telkom-1 Satellite Case Study to BRIsat Satellite

  IJETT-book-cover           
  
© 2021 by IJETT Journal
Volume-69 Issue-11
Year of Publication : 2021
Authors : Rianto Nugroho, Fuad Djauhari, Galih Damas Priambodo, Novi Azman
DOI :  10.14445/22315381/IJETT-V69I11P216

How to Cite?

Rianto Nugroho, Fuad Djauhari, Galih Damas Priambodo, Novi Azman, "ATM VSAT Switchover Planning Telkom-1 Satellite Case Study to BRIsat Satellite," International Journal of Engineering Trends and Technology, vol. 69, no. 11, pp. 128-133, 2021. Crossref, https://doi.org/10.14445/22315381/IJETT-V69I11P216

Abstract
The anomaly on the Telkom-1 satellite resulted in many ATMs (automatic teller machines) via offline satellites. Solving the anomaly is necessary to minimize offline time, so switch over migration to other satellites, namely BRIsat. Switch over ATM VSAT (Very Small Aperture Terminal) satellite to BRIsat satellite is planned with 321 BRI (Bank Rakyat Indonesia, one Indonesian bank) ATM links. The plan was carried out to provide an overview after the link is switched over to the BRIsat satellite and information about the link budget. The initial step is to create or provide an IP that was enabled to the new Hub. The EIRP of the earth satellites was obtained for 61.93dBW with the allocated allocation bandwidth of 6311.11 kHz. The ATM here uses a bandwidth of 32 Kbps.

Keywords
Automatic Teller Machine, Cross Pole, Link Budget, Routing, Switch Over.

Reference
[1] Gunter’s Space Page, Telkom 1. [Online]. Available: https://space.skyrocket.de/doc_sdat/telkom-1.htm. [Accessed: 28-Jun-2021].
[2] M. A. Barry, J. K. Tamgno, C. Lishou, and R. K. K. Maleka, Challenges of integrating a VoIP communication system on a VSAT network, in 19th International Conference on Advanced Communication Technology (ICACT), (2017) 275–281.
[3] N. Azman, A. Syarif, M.-A. Brahmia, J.-F. Dollinger, S. Ouchani, and L. Idoumghar, Performance Analysis of RPL Protocols in LLN Network Using Friedman’s Test, in 7th International Conference on Internet of Things: Systems, Management, and Security (IOTSMS), (2020) 1–6.
[4] R. Nugroho and Sindi, Perancangan Sistem Transmisi Sinyal DVB-S dan Terestrial UHF, 16(1) (2013) 67–87.
[5] R. Przesmycki, M. Bugaj, and M. Wnuk, The Measurement of Harmonic Levels for VSAT Satellite Terminals, in 41st International Conference on Telecommunications and Signal Processing (TSP), (2018) 1–5.
[6] M. A. Budiman and G. Asmungi, Evaluasi Performansi Jaringan VSAT TDM/TDMA dengan Teknik ACM Dan AIS, J. Mhs. TEUB, 6(7) (2018).
[7] M. Bugaj, Verification of Multi-Access Techniques for VSAT Satellite Terminals, in 2018 Progress in Electromagnetics Research Symposium (PIERS-Toyama), (2018) 1748–1753.
[8] G. Sun, B. Muneer, Y. Li, and Q. Zhu, Ultra-compact implantable design with integrated wireless power transfer and RF transmission capabilities, IEEE Trans. Biomed. Circuits Syst., 12(2) (2018) 281–291.
[9] Telkom Indonesia, Training siskomsat_module 2 Satellite Communication System Overview, (2016).
[10] D. N. Meadows and J. Thomas, A remote control and management scheme for deployed VSATs: An approach for the USAF pathfinder flexible modem interface, in MILCOM 2017-2017 IEEE Military Communications Conference (MILCOM), (2017) 158–163.
[11] J. Wilk-Jakubowski, A review on information systems engineering using vsat networks and their development directions, Yugosl. J. Oper. Res., no. 00 (2020) 15.
[12] R. De Gaudenzi, O. Del Rio Herrero, G. Gallinaro, S. Cioni, and P. Arapoglou, Random access schemes for satellite networks, from VSAT to M2M: a survey, Int. J. Satell. Commun. Netw., 36(1) 66–107 (2018).
[13] O. O. Fashade, T. V Omotosho, S. A. Akinwumi, and B. O. Salu, Link Budget Analysis and Architecture of a Proposed VSAT Based E-Learning System for ARCSSTE-E, in Journal of Physics: Conference Series, 1299(1) (2019) 12054.
[14] R. Bose, S. Sahana, and D. Sarddar, An adaptive cloud communication network using VSAT with enhanced security implementation, in Proceedings of the First International Conference on Intelligent Computing and Communication, (2017) 117–125.
[15] N. Azman, F. Soleman, and I. Kusuma, Optimization 5 × 195 kw chiller compressor motor with etap, Int. J. Adv. Trends Comput. Sci. Eng., 9(5) 7696–7703 (2020).
[16] A. H. Aljuhani, T. Kanar, S. Zihir, and G. M. Rebeiz, A 256-Element Ku-Band Polarization Agile SATCOM Receive Phased Array With Wide-Angle Scanning and High Polarization Purity, IEEE Trans. Microw. Theory Tech., (2021).
[17] R. Andreotti et al., Automatic Cross-Polar Discrimination Optimization System for Ku-band VSAT Antennas, in 2020 10th Advanced Satellite Multimedia Systems Conference and the 16th Signal Processing for Space Communications Workshop (ASMS/SPSC), (2020) 1–6.
[18] Y. Asci, E. Curuk, K. Yegin, and C. Ozdemir, Improved splash-plate feed parabolic reflector antenna for Ka-Band VSAT applications, in 2016 46th European Microwave Conference (EuMC), (2016) 1283–1286.
[19] J. ?. Wilk, The influence of the antenna aperture on the quality of a satellite signal,[w], in XII International Ph.D. Workshop OWD 2010, (2010).
[20] T. D. Hakim and A. Dimyati, Analisa Peformansi Jaringan Vsat BRIsat Berdasarkan Delay, Packet Loss & Service Level, Elektrokrisna, 6(3) (2018).
[21] H. Supriono, Analisis Dampak Pengaruh Nilai Down C/N Dan Up C/N Terhadap Kualitas Komunikasi Jaringan Bank BRI, MEDIA Elektr., 12(1) (2019) 29–42.
[22] H. G. Pamungkas and D. Gunawan, Business Value of Machine-to-Machine (M2M) Implementation For Automated Teller Machine Connectivity Services in Province of DKI Jakarta, in 2019 International Conference on Informatics, Multimedia, Cyber and Information System (ICIMCIS), (2019) 35–40.