Unmanned Aerial Vehicle Applications for Military GIS Task Solutions

Author:

Bayramov Azad Agalar1,Hashimov Elshan Giyas1ORCID,Nasibov Yashar Ali2

Affiliation:

1. Armed Forces War College of the Azerbaijan Republic, Azerbaijan

2. Geography Institute of Azerbaijan National Academy of Sciences, Azerbaijan

Abstract

In the chapter, the authors present the results of unmanned aerial vehicle (UAV) applications for military geoinformation system (GIS) task solutions. The results of the visual modelling of the revealing process of invisible military objects from one of point of observation on the mountainous terrain of the Azerbaijan Republic by using UAV are presented. The observation conditions between two points of the selected mountain terrain during battle operation have been investigated using GIS technology. The quantitative method of the invisible area assessment and military objects in mountainous terrain are developed and offered by using UAVs. The numerical estimation method of a task support success of UAV reconnaissance flight in mountainous battle conditions has been offered and considered. Using UAVs for the purpose of orthophotomap making of the terrain and combat control the detailed 3D-model has been constructed.

Publisher

IGI Global

Reference26 articles.

1. ArcGIS 3D analiz, eğitim dökümanı. (2008). İşlem şirketler qrubu, Ankara.

2. Autodesk 3ds-max visualization, simulation program. (2016). Retrieved from https://www.autodesk.com/products/3ds-max/overview

3. Assessment of Invisible Areas and Military Objects in Mountainous Terrain

4. GIS technology and terrain orthophotomap making for military application.;A. A.Bayramov;Journal of Defense Resources Management.,2017

5. Remote manned flying objects as Remote Sensing data source.;V. V.Butin;Geomaтics,2013

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