Research report: design of a collaborative virtual environment for training security agents in big events

Autores

  • Cláudio Azevedo Passos Instituto de Engenharia Nuclear
  • Márcio Henrique Silva
  • Antônio Carlos Mól
  • Paulo Victor Rodrigues Carvalho

Palavras-chave:

virtual reality, collaborative virtual environment, usability, design

Resumo

This paper describes a design of a collaborative

virtual environment (CVE) for training security agents in big events. The CVE was modelled with Autodesk 3ds Max, while Unity 3D was used to create the terrain and implement the features that make up a virtual environment. The Brazilian soccer stadium known as Maracanã and its surroundings were chosen as the real counterparts of the CVE. The usability of the CVE was evaluated through simulations involving security agents dealing with threats related to suspects carrying radioactive material in big events.

In order to perform these simulations, we use the same procedures used during 2014 FIFA World Cup and planned to be used in Rio 2016 Olympic Games. The main objective of this work is to verify the feasibility of designing a CVE and its usability for training security agents involved in big events issues. Results indicated that the proposed CVE has been successful concerning both, design and usability, besides of helping to improve the ability of each member of the security team on performing his duty.

 

Referências

SILVA, M. H. et al. Using virtual reality to support the physical security of nuclear facilities. Progress Nuclear Energy, [S. l.], v. 78, p. 19–24, jan. 2015.

CHEN, X.; HUADONG, M. A collaborative virtual simulation system based on HLA for emergency rescue training. Cognition Technology & Work, [S. l.], [s. n.], p. 319–326, 2006.

CORREIA, A. et al. Computer-simulated 3D virtual environments in collaborative learning and training: meta-review, refinement, and roadmap. Cognition Technology & Work, [S. l.], [s. n.], p. 403–440, 2016.

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Publicado

2021-07-08

Edição

Seção

Nuclear Chemistry and Radiochemistry