Drone Fleet Survivability Evaluation Based on Lanchester’s Modified Deterministic Model

Author:

Fesenko Herman1,Kharchenko Vyacheslav1,Bardis Nikos2,Kor Ah-Lian3,Brezhniev Yevhen1

Affiliation:

1. National Aerospace University KhAI, 17 Chkalov str., 61070, Kharkiv, Ukraine,

2. Hellenic Army Academy, Varis - Koropiou Avenue, Vari P.O. 16673, Athens, Greece

3. Leeds Beckett University, Headingley Campus, LS6 3QS, Leeds, United Kingdom

Abstract

An algorithmic approach for the assessment of the survivability is proposed that is based on Lanchester’s modified deterministic model. Methods are suggested for increasing the available time capability for nuclear power plant monitoring and coverage, using the required or a limited number of the operable drones,. Dependencies of the variance between the residual fleet damage and permissible drone fleet damage on monitoring time as well as dependencies of the monitoring time on the recovery group productivity are analysed.

Publisher

North Atlantic University Union (NAUN)

Subject

Electrical and Electronic Engineering,Signal Processing

Reference35 articles.

1. Radiation surveillance and Unmanned Aerial Vehicles (2017, Jan.).[Online]. Available: https://www.stuk.fi/documents/88234/1051119/flyer_008_radiation_surveillance_and_uavs.pdf/ba8064c2-2428-485c-b4e3-40f9042c141d

2. Office of the Secretary of Defense, “Unmanned Aerial Vehicle reliability study,” 2003.

3. Unmanned aerial vehicle uses, advantages and disadvantages. [Online]. Available: http://www.online-sciences.com/robotics/unmanned-aerial-vehicle-uses-advantages-and-disadvantages

4. A. Kulik, “Rational intellectualization of the aircraft control: Resources-saving safety improvement,” in Green IT Engineering: Components, Networks and Systems Implementation, V. Kharchenko, Y. Kondratenko, J. Kacprzyk, Eds, vol. 151. Berlin. Heidelberg: Springer International Publishing, 2017, pp. 173–192.

5. G. Caswell and E. Dodd. (2016, Aug.). Improving UAV reliability. [Online]. Available: http://cdn2.hubspot.net/hubfs/1871852/DfR_Solutions_Website/Resources-Archived/White-Papers/Reliability/Improving-Unmanned-Aerial-Vehicle-UAV-Reliability.pdf?t=1482271815148

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