1- Amini, Elham; Farrah, Habib; Mojtahedzadeh, Gholamhossein, 2010. Planning the land use and crisis management of earthquake. Journal of science and the environment technology, 3, 161-174.
2- Hamidi, Maliheh (1992). Evaluating the patterns of land and city texture segmentation in housing vulnerability from natural disasters, articles of housing development seminars in Iran, (210-224), Tehran University, Tehran, Iran.
3- Dorri, Behrouz; Hamzahi, Ehsan (2010). Strategy of answering to risk in risk management by ANP technique (case study: field oil development of northern Azadegan), industrial management, 2(4), 75-92.
4- Rezaei, Mohammadreza; Ghaedrahmati, Safar; Hosseini, Seyyed Mostafa (2014). Locating the relief stations in Yazd city by using the analytical network procedure and GIS FUZZY, journals of human geography, 46(1), 85-101.
5- Zebardast, Esfandiar (2009). The usage of analytical network procedure (ANP) in regional and urban planning, journal of fine arts, 41, 65-90.
6- Zangi Abadi, Ali; Mohammadi, Jamal; Safaei, Homayoun; Ghaedrahmati, Safar (2008), analyzing the vulnerability criteria of city habitats against earthquake risk (case study: Isfahan habitats), journal of geography and development, 12, 65.
7- Zangi Abadi, Ali; Tabrizi, Nazanin (2009), Tehran’s earthquake and spatial evaluation of city regions vulnerability, geographical researches, 55, 115-130.
8- SoltaniFard, Hadi; Zanganeh, Ahmad; Noudeh, Marzieh; Hosseini, Farzaneh El-Sadat (2012). Spatial analysis of the passages network effects on city neighborhoods vulnerability (case study: Amirieh neighborhood of Sabzevar city). Journal of spatial analysis of environment risks, 3(1), 1-3.
9- Samadzadeh, Farhad; Zarrin Panjeh, Nader (2007). Evaluation of earthquake destruction of city roads network using satellite images and fuzzy systems, international photogrammetric archives, remote sensing and spatial information science, 25(B8), 409-414.
10- Tadbir Shahr consultant engineers (2005). General design of Sanandaj city. Sanandaj: housing and urban development organization of Kurdistan.
11- Abedini, Musa (2006), zoning the risk of earthquake in Givichay zone based on analytical hierarchy process (AHP), research plan of geography group of University of Mohaghegh Ardabili.
12- Abdullahi, Majid (2001). Crisis management in city areas (flood and earthquake), Tehran; Publications of the Municipalities of Iran.
13- Azizi, Mohammadmehdi; Akbari, Alireza (2008). Consideration of urban planning in evaluation of cities vulnerability from earthquake, journal of research in fine arts, 34, 25-36.
14- Farjad, Abolfazl et al (2012), urban planning reference: collection of useful topics in regional and urban development plans, Tehran; Azarakhsh publications.
15- Ghanbari, Abolfazl; Saleki, Mohamad Ali; Ghasemi, Masoumeh (2016). Evaluating the amount of city passages network vulnerability against earthquake (case study: Baghmisheh town in Tabriz), geography and environmental risks, 5(18), 1-15)
16- Homafar, Milad; Azizi, Mohammadmehdi (2012), pathology of passages network quakes (case study: Karmandan neighborhood, Karaj), journal of scientific research in fine arts, 3(17), 5-15.
17- Behzad Afshar, K., Akbari, P. (2018). Evaluation of seismic vulnerability of urban sprawl physical variables using TOPSIS model (Case Study: Urban separate area Babariz Sanandaj). Journal of Studies of Human Settlements Planning, 12 (4), 857-873. http://jshsp.iaurasht.ac.ir/article_538280.html. (In Persian).
18- Chung, S.H., Lee, A.H.L., Pearn, W.L.( 2005) Analytic Network Process (ANP) Approach for ProductMix Planning in Semiconductor Fabricator, International .Journal of Production Economics 96, pp.15–36.
19- Ciriannia. F, Fontea. F, Leonardia. G, Scopellitia. F(2012),Analysis of Lifelines Transportation Vulnerability, SIIV- 5th International Congress-Sustainability of Road Infrastructures, Published by Elsevier Ltd, Procedia - Social and Behavioral Sciences 53 29 - 38.
20- Central u. s earthquake consortium (2000). Earthquake vulnerability of transportation system in the central united states compiled by the Central, U.S earthquake consortium.
21- Dalin, Q & Luping, Y (2012). Vulnerability Analysisof Road Networks, Journal of Transportation Systems Engineering and Information Technology. Volume 12, Issue 1, February.
22- Ertay, T., Ruan, D., Tuzkaya, U.R. (2006). Integrating Data Envelopment Analysis and Analytic Hierarchy, for the Facility Design in Manufacturing Systems Information Sciences 176, pp. 237–262.
23- Gencer, Cevriye, Didem, Gurpinar. (2006). Analyticnetwork process in supplier selection: A case study in, an electronic firm, Applied Mathematical Modeling.Vol.31:2475–2486.
24- Gregory, Derek et al (2009) The Dictionary of Human Geography; Chichester: Wiley Blackwell.
25- Huang, Zhengdong.(2003).Data Integration For Urban Transport Planning, International Institute for Geo -Information Science and Earth Observation (ITC), The Netherlands.p96.
26- Husdal, J. (2005) the vulnerability of road networks in a cost-benefit perspective. Proceedings of the transportation Research Board Annual Meeting (TRB 2005), Washington DC, USA, 9-13 January 2005. , pp. 28-3.
27- Husdal, J, (2006), Transport Network Vulnerability: Which Terminology and Metrics Should We Use? Paper presented at the NECTAR Cluster 1 Seminar, Norway: 1-9.
28- Lari A, Jahangiri K, Haji Nabi K, Hospital Safety Index analysis: a case study in Tehran. J relief and rescue 2013; 1-10 (Persian)
29- Liu, Bin et al. (2003). The Restoration Planning of Road Network in Earthquake Disasters, Proceedings of the Eastern Asia Society for Transportation Studies, Vol.4, October, page 526-539.
30- Miriam, Holly – Shulman, Lea. (2008). Estimating Evaluation Vulnerability Of Urban Transportation Systems Using GIS, A thesis submitted to the Department of Geography In conformity with the requirements for the degree of Master of Arts, Queen’s University Kingston, Ontario, Canada.
31- Minami, Masaaki et al. (2003). Street Network Planning For Disaster Prevention Against Street Blockade, Proceedings of the Eastern Asia Society for Transportation Studies, Vol.4, Page 1750-1756.
32- Mohammadi Ahmadiani, J., Sahraeian, Z., & Khosravi, F. (2002). The Role of Factors Influencing the Physical Vulnerability of Jahrom City against Earthquakes. Applied Geosciences Research, 10(11), 121-143. (In Persian)
33- Moehle. J, Barkley. C, Bonowitz. D, Karlinsky. S, Maffei. J, Poland. C‚ (2009)‚ the Resilient City – A Way of Thinking about Preparedness, Mitigation, and Rebuilding, Proceeding of the NZSEE conference ‚ Apr 3-5, Christchurch.
34- Miriam, Holly, Shulman, Lea .2008. Estimating Evaluation Vulnerability of City Transportation Systems Using GIS, A thesis submitted to the Department of Geography In conformity with the requirements for the degree of Master of Arts, Queen’s University Kingston, Ontario, Canada.
35- Nagae, T. Fujihara, T. Asakura, Y (2012). Anti-seismicreinforcement strategy for an urban road network, Transportation Research Part a 46, 813-827.
36- Nojima, N, Sugito, M. (2000). Simulation and Evaluation of Post-Earthquake Functional Performance of Transportation Network, 12 WCEE, 1927/7/A.
37- Pan American health organization World health organization. Hospital safety index. Regional consultation of SEAR member countries on hospital safe from disaster New Delhi, India 2008.
38- Saaty, T. L. (2004). Fundamentals of the analytic network process –Dependence and feedback in decision making with a single network, Journal of Systems Science and Systems Engineering: 1-35.
39- Saaty, T. L. (1996). Decision making with dependence and feedback: the analytical network process, RWS publications, Pittsburgh.
40- Saaty, T. L. (2004). Fundamentals of Theanalytic network process: multiplenetworks with benefits, costs, opportunities and risks. Journal of systems science and systems engineering, 13(3), 348-379.
41- Saaty, T. L. (1980). The Analytical Hierarchy Process, Mc-Graw Hill, New York, p: 58-7239.
42- Cover, M.T. Joy, A.T. (1991): "Entropy, Relative Entropy and Mutual Information", Element Information Theory.
43- Shen E, et al. (2009) Identification and characterization of INMAP, a novel interphase nucleus and mitotic apparatus protein that is involved in spindle formation and cell cycle progression. Express Cell 315(7):1100-16.
44- Taylor, M & Este, G (2006). Transport NetworkVulnerability: a Method for Diagnosis of CriticalLocations in Transport Infrastructure Systems, Transport Systems Centre, University of South Australia, Australia.
45- Yung-Lung Lee, Ming-Chin Ho, Tsung-Cheng Huang, Cheng-An Tai.(2007).Urban Disaster Prevention Shelter Vulnerability Evaluation Considering Road Network Characteristics, 2nd International Conference on Urban Disaster Reduction November 27~29, 2007.