Passive defense: Measuring and evaluating urban vulnerability with resilience approach

  • Mohammad Rezaie Narimisa Ministry of Petroleum - Iran
  • Noor Ezlin Ahmad Basri National University of Malaysia - Malaysia
  • Malek Elahi City of Malabaon University - Philippines
  • Mohammad Hasannezhad Shahid Beheshti University - Iran
  • Elham Alipanahi Ruzbahan University - Iran
Keywords: passive defense, vulnerability, ANP, AHP, Arc GIS

Abstract

The purpose of the present research is to measure the level of urban safety based on the principles of passive defense, urban leveling based on the degree of vulnerability, the urban infrastructure dispersal pattern and important decision-making organizations in the city. The study is based on the urban environment, which has been used to measure the vulnerability of the city during the onset of war by using spatial indices influencing safety.

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Author Biographies

Mohammad Rezaie Narimisa, Ministry of Petroleum - Iran

Ministry of Petroleum, National Iranian Oil Refining & Distribution Company, Oil Refining Industries Development Company, Tehran, Iran (Corresponding author)

Noor Ezlin Ahmad Basri, National University of Malaysia - Malaysia

Professor of National University of Malaysia (UKM), Department of Civil & Structural Engineering, Faculty of Engineering & Built Environment, Malaysia

Malek Elahi, City of Malabaon University - Philippines

City of Malabaon University, School of Graduate Studies, Metro Manila, Philippines

Mohammad Hasannezhad, Shahid Beheshti University - Iran

Assistant professor of Shahid Beheshti University, Financial Management and Accounting Department, Tehran, Iran

Elham Alipanahi, Ruzbahan University - Iran

Department of Architecture, Ruzbahan University, Sari, Iran

References

Alexander, D. (2002). From Civil Defense to Civil Protection and back again.

Disaster Prevention and Management, 11. No. 3, 209-213.

Brandon, P. (2011). Extreme Management in Disaster Recovery. Journal of Procedia Engineering. No. 14, Pp. 14-21.

Eckert, N and E. Parent and T. Faug and M. Naaim. (2008). Optimal design under uncertainty of a passive defense structure against snow avalanches: from a general Bayesian framework to a simple analytical model, Natural Hazards and Earth System Sciences,8, Pp.1067-1081.

Excerpts from the Civil Defense Emergency Management Act of 2002 (New Zealand), No.33

Karbasian, M, Abedi, S. (2011). A Multiple Objective Nonlinear Programming Model for Site Selection of the Facilities Based on the Passive Defense Principles. International Journal of Industrial engineering & Production Research. Volume 22, Number 4: 243-250.

Mohsen, k. Zarei, S. Kalantari, M. and Soleimannejad, E. (2014). Criteria of Passive Defense in Subway Stations. Journal of Civil Engineering and Urbanism, Volume 4, Issue 3: 298-304

Nikoomanesh, M. R. Nazarkhah, A. and Panahyian, J. (2014). Study of the Methods of Passive Defense Implementation in the Energy Field and the Relevant Industries. International Journal of Basic Sciences & Applied Research, Vol. 3.

Saaty L. T. (2004). The Analytic network process dependence and feedback in decision making part2 theory and validation examples.

Shakibamanesh, A.(2015). Public shelters: Towards secure urban planning and designing in terms of passive defense. Malaysian journal of society and space 11 issue 3: 1-9

Yeganegi, K. and Bayat, E. (2012, July 3 - 6). Application of Passive Defense in Location of Industrial Estates.Proceedings of the 2012 International Conference on Industrial Engineering and Operations ManagementIstanbul, Turkey.

Published
2019-03-31
How to Cite
Rezaie Narimisa, M., Ahmad Basri, N. E., Elahi, M., Hasannezhad, M., & Alipanahi, E. (2019). Passive defense: Measuring and evaluating urban vulnerability with resilience approach. Religación, 4(13), 153-162. Retrieved from https://revista.religacion.com/index.php/religacion/article/view/202
Issue
Vol. 4 No. 13 (2019): Re-thinking Anthropology from the South
Section
General Section