Transport and Aerospace Engineering

In present conditions the activity of any enterprise is represented as a combination of operational processes. Each of them corresponds to relevant airline management systems. Combining two or more management systems, it is possible to obtain an integrated management system. For the effective functioning of the integrated management system, an appropriate information system should be developed. This article proposes a model of such an information system.

R. Bogdane and V. Šestakovs, and D. Dencic, “Development of the Mathematical Model of Integrated Management System for an Airline,” Transport and Aerospace Engineering, vol. 3, pp. 44–51, 2016. ISSN 2255-9876 (online). ISSN 2255-968X (print). https://doi.org/10.1515/tae-2016-0006

R. Bogdane and V. Šestakovs, “Development of mathematical model of integrated management system for an airline,” Proc. The 4th International Scientific and Practical Conference “Transport systems, logistics and engineering – 2016”, 2016, pp. 5–12.

R. Bogdane and A. Vaivads, “Dejan Dencic Evaluation of Management System Effectiveness in the Preparation of the Aircraft for Flight in Faulty Conditions,” Transport and Aerospace Engineering, issue 2, pp. 13–18, 2015. https://doi.org/10.1515/tae-2015-0002

A. Urbahs, J. Petuhova, M. Urbaha, K. Carjova, and D. Andrejeva, “Monitoring of Forest (Fire) using micro class unmanned aerial vehicles”, Transport Means 2013: Proceedings of the 17th International Conference, Lithuania, Kaunas, 24–25 October, 2013, pp. 61–65. ISSN 1822-296X.

A. Urbahs and I. Jonaite, “Features of the use of unmanned aerial vehicles for agriculture applications”, Aviation, 2013, vol. 17, issue 4, pp. 170-175, 2013. https://doi.org/10.3846/16487788.2013.861224

Quality management. International standards ISO 9000. [Online]. Available: http://www.iso.org/iso/home/standards/management-standards/iso_9000.htm. Accessed on: March 5, 2016.

International Civil Aviation Organization, Global Air Navigation Plan – ICAO, 3rd ed. 2007. [Online]. Available: http://www.icao.int/publications/Documents/9750_3ed_en.pdf. Accessed on: March 10, 2016.

IOSA standarta Rokasgrāmata. IATA, 2012.

Y. B. Dissanayake, A. Pankov, and V. Šestakovs, “Quality control on the basis of entropy determination,” Transport, 2004, Vol.19, Iss.2, pp.51-55. ISSN 1648-4142. e-ISSN 1648-3480. https://doi:10.1080/16484142.2004.9637953

Europian Aviation Safety Agency, SAFA Guidance Material. Cologne: EASA, 2012.

A. Pankovs, V. Ceitlins, V. Šestakovs, “Economical Aspects of Traffic Circulation Safety”. Transport. Aviation Transport, vol.8, 2002, pp.127-131. ISSN 1407-8015.

Y. Dissanayake and V. Šestakovs, “Procedure of the Special Situations Identification (Īpašu situāciju identifikācijas metodika),” Transport. Aviation Transport, issue 11, pp. 145–151, 2002, ISSN 1407-8015.

V. Šestakovs and I. Petuhovs, “Operational-Economical Flyng Safety Regulations System in Aircompany,” Transport. Aviation Transport, vol. 13, pp. 150–155, 2003.

V. Šestakovs, Human Factor in Aviation. Riga, Latvia: RTU Press, 2011.

B. V. Zubkov, R. V. Sakac, and V. A. Kostjakov, Bezopasnostj poletov. 3 parts, Мoscow. 2007..

Z. T. Krohin,V. Z. Šestakovs, and F. I. Skripnik, Inženerno-organizacionnye osnovy obespečenija bezopasnosti poletov v graždanskoj aviacii. M.: Transport, 1987.

Z. Lapinskis and V. Šestakovs, Various Safety Aspects of the Aircraft Flight. Riga, Latvia: RTU Press, 2005.

V. Šestakovs, I. Petuhovs, and A. Pankov, “A Processual method, the helping to manage the quality of transport servis”, Transport, vol. 20, issue 6, pp. 232–235, 2005.

L. J. Krajewski, Operations management: strategy and analysis. New York, 1992.