Patlayıcı Maddelerin Tespitine Yönelik Bir Sanal Gerçeklik Uygulaması

Year 2020, Volume: 4 Issue: 1, 29 - 40, 31.07.2020

Mustafa Gunes , Hakan Dilipak

Abstract

— Günümüzde el yapımı patlayıcı maddelerin tespiti edilmesi ve zarar vermeden etkisiz hale getirilmesi savunma alanında görev yapan personel için oldukça önemli bir konudur. Gelişen teknolojik imkanlar neticesinde patlayıcı maddelerin tespitinde kullanılabilecek faydalı uygulamalar hazırlanabilmektedir. Özellikle bu patlayıcı maddeleri görevleri gereği arayan timlerin eğitilmesi oldukça önemli bir konudur. Hem eğitime yönelik senaryoların oluşturulmasında hem de değişen durum ve teçhizatın bu senaryoları aktarılmasında sanal gerçeklik uygulamaları oldukça maliyet etkin çözümlerdir. Bu çalışmada Unity oyun motoru içerisinde bir meskûn mahal hazırlanmış, ihtiyaç duyulan görevlere yönelik askeri teçhizat ve arazi modellenmiş, patlayıcı maddeler ve emareler sahneye yerleştirilmiştir. Oculus Rift S marka sanal gerçeklik gözlüğü kullanılarak kullanıcıdan bu patlayıcı maddeleri aktif hale getirmeden tespit etmesi istenmiştir. Yapılan çalışmanın el yapımı patlayıcıların tespitinde görev yapan unsurların eğitimlerine katkı sağlayacağı değerlendirilmektedir

Keywords

Unity Oyun Motoru, Ciddi Oyun, Patlayıcı Maddelerin Tespiti, Sanal Gerçeklik

A Virtual Reality Application For The Detection Of Explosives

Abstract

Today, detection of improvised explosive device (IED)and neutralizing them without harming is an important issue for the personnel working in the field of defense. As a result of developing technological possibilities, useful applications can be prepared that can be used in detecting explosive substances. In particular, training of teams who are looking for these explosives in accordance with their duties is a very important issue. Virtual reality applications are very cost effective solutions both in creating educational scenarios and in transferring these scenarios of changing situations and equipment. In this study, a residential area was prepared within the Unity game engine, military equipment and terrain were modeled for the tasks needed, explosives and signs were placed on the stage. Using the Oculus Rift S brand virtual reality glasses, the user was asked to detect these explosives without activating them. It is evaluated that the study will contribute to the training of the elements involved in the detection of improvised explosive devices.

Keywords

Unity Game Engine, Serious Game, improvised explosive devices

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