A Fuzzy Model of Risk Assessment for Environmental Start-up Projects in the Air Transport Sector.

Journal: International journal of environmental research and public health
Published Date: Sep 24, 2019

Abstract

The purpose of this paper is to develop a fuzzy model of the risk assessment for environmental start-up projects in the air transport sector at the stage of business expansion. The model developed for the following software will be a useful tool for the risk decision support system of investment funds in financing environmental start-up projects at the stage of market conquest. Developing a quantitative risk assessment for environmental start-up projects for the air transport sector will increase the resilience of making risk decisions about their financing by the investors. In this paper, a set of 21 criteria for assessing the risk of launching environmental start-up projects in the air transport sector were formulated for the first time by presenting inputs in the form of a linguistic risk assessment and the number of credible expert considerations. The fuzzy risk assessment model, based on expert knowledge, uses linguistic variables, reveals the uncertainty of the input data, and displays a risk assessment with linguistic interpretation. The result of the paper is a fuzzy model that is embedded in a generalized algorithm and tested in an example risk assessment of environmental start-up projects in the air transport sector.

Authors

  • Volodymyr Polishchuk
    Faculty of Information Technologies, Uzhhorod National University, Uzhhorod 88000, Ukraine. volodymyr.polishchuk@uzhnu.edu.ua.
  • Miroslav Kelemen
    Faculty of Aeronautics, Technical University of Kosice, Kosice 04121, Slovak Republic. miroslav.kelemen@tuke.sk.
  • Beáta Gavurová
    Research and Innovation Centre Bioinformatics, USP TECHNICOM, Technical University of Košice, Kosice 04001, Slovak Republic. beata.gavurova@tuke.sk.
  • Costas Varotsos
    Department of Physics, National & Kapodistrian University of Athens, GR-15784 Athens, Greece. covar@phys.uoa.gr.
  • Rudolf Andoga
    Faculty of Aeronautics, Technical University of Kosice, Kosice 04121, Slovak Republic. rudolf.andoga@tuke.sk.
  • Martin Gera
    Faculty of Mathematics, Physics and Informatics, Comenius University in Bratislava, Bratislava, Mlynská Dolina 84248, Slovak Republic. mgera@fmph.uniba.sk.
  • John Christodoulakis
    Department of Physics, National & Kapodistrian University of Athens, GR-15784 Athens, Greece. ichristo@phys.uoa.gr.
  • Radovan Soušek
    Faculty of Transport Engineering, University of Pardubice, 53210 Pardubice, Czech Republic. radovan.sousek@upce.cz.
  • Jaroslaw Kozuba
    Faculty of Transport, Silesian University of Technology, Gliwice 44100, Poland. jaroslaw.kozuba@polsl.pl.
  • Jakub Hospodka
    Faculty of Transport, Czech Technical University in Praque, 16000 Praque, Czech Republic. xhospodka@fd.cvut.cz.
  • Peter Blišťan
    Faculty of Mining, Ecology, Process Control and Geotechnology of Aeronautics, Technical University of Kosice, 04121 Kosice, Slovakia. peter.blistan@tuke.sk.
  • Stanislav Szabo
    Faculty of Aeronautics, Technical University of Kosice, Kosice 04121, Slovak Republic. stanislav.szabo@tuke.sk.

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