Airspace Capacity Analysis of Adisutjipto Airport

Aprinia Kusumaningsih, Dewanti Dewanti, Imam Muthohar

Abstract

Flight operation delays occur if there are delays both on the ground and in the airspace. It happened while the demand for air traffic exceeded the available capacity. The aim of the study is to analyse the airspace capacity based on Air Traffic Controller’s workload to support safety, expeditious, and orderly flow of air traffic which are the responsibility of the ATC. Primary data in this analysis were obtained by observing the activities conducted by ATC when delivering services to the airspace sector for 1 hour during peak hours within 30 days. The secondary detailed used to help the study relate to the amount of flight during peak hours, weather conditions, and flight plans. The analytical method used to determine the airspace capacity shall be the Pessimistic Sector Capacity. The result indicated a theoretical capacity of 31 aircraft per hour and practical capacity of 25 aircraft per hour with ATC personnel working time of 33 minutes being included in the heavy load category.

Keywords

Air Traffic Controller (ATC), Workload, Airspace Capacity, Pessimistic Sector Capacity

References

S. Ariesta and F. Sari, “Analisis Dampak On Time Performance ( OTP ) Pada Kegiatan Transportasi Udara ( Studi pada Keterlambatan Jadwal Penerbangan di Bandar Udara Internasional,” vol. 60, no. 2, pp. 169–178, 2018.

C. Çetek and R. K. Çeçen, “En-Route Airspace Capacity And Traffic Flow Enhancement Using Genetic Algorithms,” Anadolu University Journal Of Science And Technology A - Applied Sciences and Engineering, vol. 18, no. 1, pp. 39–39, Mar. 2017.

A. Majumdar and W. Y. Ochieng, “Factors Affecting Air Traffic Controller Workload: Multivariate Analysis Based on Simulation Modeling of Controller Workload,” Transportation Research Record: Journal of the Transportation Research Board, vol. 1788, no. 1, pp. 58–69, Jan. 2002.

B. Számel, I. Mudra, and G. Szabó, “Applying Airspace Capacity Estimation Models to the Airspace of Hungary,” Periodica Polytechnica Transportation Engineering, vol. 43, no. 3, pp. 120–128, 2015.

Kementerian Perhubungan, “Peraturan Direktur Jenderal Perhubungan Udara No. KP 265 Tahun 2017 Tentang Standar Teknis dan Operasi Bagian 170-03 (Manual of Standard CASR Part 170-03) Pedoman Penghitungan Kapasitas Ruang Udara dan Kapasitas Landas Pacu (Airspace Capacity and Runway Capacity)”, Jakarta: Kementerian Perhubungan, 2017

Airnav Indonesia, “Manual Perhitungan Kapasitas Ruang Udara”, Tangerang: Perum LPPNPI, 2015

International Civil Aviation Organization, “Fourth Workshop/ Meeting of the SAM Implementation Group (SAM/IG/4) Regional Project RLA/06/901”, South America: ICAO Regional Office, 2019

Eurocontrol Experimental Centre, “Pessimistic Sector Capacity Estimation EEC Note No.21/03”, Prancis: Eurocontrol,2003

Basuki, A.T.,and Nano, P., “Analisis Regresi dalam Penelitian Ekonomi dan Bisnis”, Jakarta: Raja Grafindo Persada, 2016

Ghozali, I., “Aplikasi Analisis Multivariat dengan Program SPSS”, Semarang: Badan Penerbit Universitas Diponegoro, 2005

Sugiyono, “Metode Penelitian Kuantitatif, Kualitatif dan R&D”, Bandung: Alfabeta, 2006

Airnav Indonesia, “Prosedur Operasi Standar Pelayanan Lalu Lintas Penerbangan”, Yogyakarta: Perum LPPNPI Cabang Yogyakarta, 2019

International Civil Aviation Organization, ”Doc.9426 Air Traffic Services Planning Manual”, Canada: ICAO,2005

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