The Blueprint of AWOS Implementation for Aviation Services at BMKG

Duati Wardani, Selo Sulistyo, I Wayan Mustika

Abstract


Weather is very critical for aviation. Especially regarding safety in air transportation. Badan Meteorologi, Klimatologi, dan Geofisika (BMKG) in its duties and functions provides aviation weather information, conducts the latest weather observation activities for the needs of takeoff and landing at airports. The World Meteorological Organization (WMO) has targeted automation with a target achievement in 2017. But currently in conducting the latest weather observations, BMKG still uses conventional weather observation systems even though at some airports Automated Weather Observing Systems (AWOS) have been installed. The automated weather observing system is still not fully implemented yet. This study aims to create a blueprint for the implementation of automatic weather observations for aviation services within the BMKG. Guidelines for making blueprint use the Enterprise Architecture Planning (EAP) framework. EAP defines business and architectural needs related to data, applications, and technology needed to implement automation. The final results achieved are in the form of a blueprint for the implementation of automated weather observing system for aviation services within the BMKG which can be a guide for BMKG in achieving the vision related to aviation weather services.


Keywords


BMKG, EAP, AWOS, aviation weather services

References


Poerwanto, E., & Mauidzoh, U. (2016). Analisis Kecelakaan Penerbangan Di Indonesia Untuk Peningkatan Keselamatan Penerbangan. Angkasa: Jurnal Ilmiah Bidang Teknologi, 8(2), 9-26.

Kementrian Perhubungan, Peraturan Menteri Perhubungan Republik Indonesia No. PM 9 Tahun 2015 tentang Peraturan Keselamatan Penerbangan Sipil Bagian 174 (Civil Aviation Safety Regulations Part 174) Tentang Pelayanan Informasi Meteorologi Penerbangan (Aeronautical Meteorological I. Jakarta, 2015.

BMKG, Peraturan Kepala Badan Meteorologi, Klimatologi, dan Geofisika Republik Indonesia No.15 Tahun 2017. Jakarta, 2017.

BMKG, Peraturan Kepala BMKG No.009 Tahun 2015 Tentang Rencana Strategis Badan Meteorologi Klimatologi dan Geofisika Tahun 2015–2019. Jakarta, 2015.

Poerwanto, E., & Gunawan, G. (2015). Analisis Beban Kerja Mental Pekerja Bagian Ground H Andling Bandara Adisutjipto untuk Mendukung Keselamatan Penerbangan. Angkasa: Jurnal Ilmiah Bidang Teknologi, 7(2), 115-126.

E. Buyukbas, L. Yalcin, Z. T. Dag, and S. Karatas, “Instruments and Observing Methods,” Alanya, Turkey, 2005.

BMKG, SOP No.001 Tahun 2017 Tentang Pelayanan Cuaca Untuk Informasi Cuaca Penerbangan Bila Sarana AWOS Terjadi Malfungsi. Jakarta, 2017.

A. W. Inc., Automated Weather Observing System (AWOS) 3000 User’s Manual, Rev.G. Sacramento, CA, USA: All Weather Inc., 2017.

Bente, S., Bombosch, U., & Langade, S. (2012). Collaborative enterprise architecture: Enriching ea with lean. Agile, and Enterprise 2.0 practices, Eds. Elsevier.

Spewak, S. H., & Hill, S. C. (1993). Enterprise architecture planning: developing a blueprint for data, applications and technology. QED Information Sciences, Inc..

S. Kasus, B. Pendidikan, D. Kab, and L. Tengah, “Perancangan arsitektur sistem informasi menggunakan enterprise arsitecture planning,” vol. 13, no. 1, pp. 41–51, 2013.

P. B. No.5, Rencana Induk Badan Meteorologi, Klimatologi, dan Geofisika Tahun 2015-2045. Jakarta, 2014.




DOI: http://dx.doi.org/10.28989/senatik.v4i0.243

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