Identification and evaluation of key Assets with approach passive defense (case study: Qazvin province)
الموضوعات : فصلنامه علمی پژوهشی سنجش از دور راداری و نوری و سیستم اطلاعات جغرافیاییvajiheh hedayati 1 , Mohamad Hosein Ramesht 2 , Seyyed Ali Al-Hosseini al-Madrasi 3
1 - دانشجوی رشته جغرافیا و برنامه¬ریزی شهری، واحد اصفهان (خوراسگان)، دانشگاه آزاد اسلامی، اصفهان، ایران
2 - استاد گروه جغرافیای طبیعی، دانشگاه اصفهان، اصفهان، ایران
3 - استاد گروه سنجش از دور و GIS، واحد یزد، دانشگاه آزاد اسلامی، یزد، ایران
الکلمات المفتاحية: Key assets, passive defense, Qazvin province, asset leveling and valuation, FEMA,
ملخص المقالة :
The attractiveness of key assets for the enemy does not have the same value, therefore, according to their leveling, the possibility of threats is considered. The purpose of this research will be focusing on the case study of Qazviny. The type of research is applied and the research method is descriptive-analytical and the tools of information gathering are library studies, interviews and questionnaires, which were selected as a statistical sample by using a targeted sampling of 50 experts. The method of information analysis for the leveling of assets was through the guidelines for the leveling of centers of gravity approved by the inactive defense organization and the assessment of the value of assets was also through the FEMA technique. The research results in the stratification section show that Qazvin Karaj Freeway, Shahid Rajaei Power Plant, Qazvin 16th Armored Division, Northwest Radio Communications Directorate, Chicken Ajdad Barkat Company are among assets with sensitive surface and Qazvin Governorate, Qazvin Governorate , Imam Khomeini International University, Shahid Rajaei Hospital and Qazvin Railway Station are among assets with an important level, and in the asset evaluation section, Shahid Rajaei Power Plant with a score of 9/33, Qazvin Governorate with a score of 7/96 respectively. Chicken Ajdad Barkat Company with 7/33, Qazvin Governorship with 6/84, Qazvin 16th Armored Division with 6/8, Shahid Rajaei Hospital with 6/17, Imam Khomeini International University with 5/88, Qazvin Railway Station with 5/75, General Directorate of Northwest Radio Communications with 5/5 and Qazvin Karaj Freeway with 5/48 are of high value.
Abazarlou, S. (2016). Assessing the vulnerability of cities with the approach of passive defense, a case example: Sabzevar city, confidential issue of passive defense science and technology magazine, Malik Ashtar University of Technology, Tehran.
Alcaraza, C., Zeadally, Sh. (2015). Critical infrastructure protection: Requirements and challenges for the 21st century, International journal of critical infrastructure protection, 53–66.
Alikhani, A., Barzegar B., Akram, B., & Nurollahi, H. (2018). presentation of a comprehensive assessment model of the vulnerability of urban areas by dividing the constituent layers of the city with a passive defense approach, Crisis Management Journal, Volume 8, Number 2. Serial No. 16, pp. 33-46.
Bayat Aqbalaghi., M. (2018). translation of Report No. 452: Risk Assessment and Guidelines for Reducing the Potential of Terrorist Attacks, United States Federal Emergency Management Agency, Iran Power and Water Resources Development Company.
Collier, S. J., Cox, S. (2021). Governing urban resilience: Insurance and the problematization of climate change, Economy and Society، 50(2), 275-296. https://doi.org/10.1080/03085147.2021.1904621
Eskandari, M., Omidar, B., Tavakoli T. (2014). Analysis of the damage of vital arteries considering the effects of dependency due to targeted attacks, a case study of the water and electricity network in an urban area, two quarterly journals of crisis management, special issue of passive defense week , pp. 19-30.
Etinay N. Egbu Ch. (2018). Building Urban Resilience for Disaster Risk Management and Disaster Risk Reduction, Procedia Engineering 212: 575–582.
Farhadi، E., Pourahmad, A,. Ziari, K., Sabokbar., H,. & Tondelli., S. (2022)، Indicators Affecting the Urban Resilience with a Scenario Approach in Tehran Metropolis، Sustainability2022، 14، 12756. https://doi.org/10.3390/su141912756
Fema426. (2003). Reference Manual to Mitigation Potential Terrorist Attacks Against Buildings, Federal Emergency Management Agency, USA.
Fema452. (2005). Risk Assessment, a How to guide to Mitigation Potential Terrorist Attacks Against Buildings, Federal Emergency Management Agency, USA.
Ghazanfari., M. (2012), Pathology of metro stations against man-made threats and providing solutions to reduce vulnerability (case study: Valiasr station), Master's thesis, Malik Ashtar University of Technology, Tehran.
Guidelines for Leveling the Centers of Gravity of the Non-Active Defense Organization. (2014). Physical Vice-Chancellor, Non-Active Defense Organization, Tehran.
Hosseini, A., Zanganeh, S., Hosseini, M., & Qanbari Nasab, A. (2013). Investigation of vulnerable elements and considerations of passive defense in the Harim of the metropolis of Tehran, the first scientific-research conference on urban planning and architecture with the approach of passive defense, University Malik Ashtar Industry, Tehran.
Jalali Farahani., Gh. (2012). an introduction to the method and model of threat estimation in passive defense. Tehran: Printing and Publishing Institute of Imam Hossein University.
Jalali Farhani, Gh., Eskandari, H. (2010). passive defense knowledge for managers of executive bodies, second edition, Bostan Hamid Publishing House, Tehran.
Kalantari Khalil Abad, H., Abazarlou, S., & Heydari., A. (2022), Identifying the Vulnerability Process of Cities with Passive Defense Approach, First Edition, Art University Press, Tehran.
Mashhadi, H., Amini Varki., S. (2014), Compilation and presentation of threat assessment model, vulnerability and risk analysis of critical and sensitive infrastructures with an emphasis on passive defense, the first national conference on risk management in infrastructures, Tehran.
Mousavi, R., Panishtegar, Y., & Kalantari Khalil Abad, H. (2019).risk assessment of key assets of Bandar Abbas city with a passive defense approach, New Attitudes in Human Geography, 12 (4) (consecutive 48), pp. : 761-744.
Norman, T. (2016). Risk Analysis and Security Countermeasure selection, CRC press, USA.
Ongkowijoyo Citra S., Doloi H. (2018). Risk-based Resilience Assessment Model Focusing on Urban Infrastructure System Restoration,212(18), Pages 1115-1122, https://doi.org/10.1016/j.proeng.2018.01.144.
Rahmani، M., Lotfata, A., Khoshnevis, S., Javanmardi, K., & Akdogan., M. (2022). Resilience assessment of health-care facilities within urban context: learning from a non-profit hospital in Tehran,International Journal of Disaster Resilience in the Built Environment، 6(8). https://doi.org/10.1108/IJDRBE-11-2021-0151.
Setareh, A. (2011). risk management in passive defense, assessment of assets, threat and vulnerability, Andishe Zahor publication, Amash and passive defense academic complex, Malik Ashtar University of Technology, Tehran.
Tavasoli, Mohsen, Abazarlou., S. (2021). Modeling the vulnerability of key assets of cities with a passive defense approach using fuzzy logic (Case study: District 6 of Tehran), Shahr Ayman, 4 (4), 14-22.
zhang, z., xiangyan,li. (2017). A quantitative approach for assessing the critical nodal and linear elements of a railway infrastructure. International journal.
