PERTANIKA JOURNAL OF SCIENCE AND TECHNOLOGY

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• Aerts, J. C. J. H. (2018). A review of cost estimates for flood adaptation. Water (Switzerland), 10(11), Article 1646. https://doi.org/10.3390/w10111646

• Aerts, J. C. J. H., & Wouter Botzen, W. J. (2011). Flood-resilient waterfront development in New York City: Bridging flood insurance, building codes, and flood zoning. Annals of the New York Academy of Sciences, 1227(1), 1–82. https://doi.org/10.1111/j.1749-6632.2011.06074.x

• American Society of Civil Engineers. (2015). Flood resistant design and construction. http://ndl.ethernet.edu.et/bitstream/123456789/58215/1/638.pdf

• Andráško, I., Dolák Klemešová, K., Dolák, L., Trojan, J., & Fiedor, D. (2020). “Surely it will come again...”. Flood threat appraisal, mitigation strategies and protection motivation in Czech communities endangered by floods. Moravian Geographical Reports, 28(3), 170–186. https://doi.org/10.2478/mgr-2020-0013

• Baier-Fuentes, H., Merigó, J. M., Amorós, J. E., & Gaviria-Marín, M. (2019). International entrepreneurship: A bibliometric overview. International Entrepreneurship and Management Journal, 15(2), 385–429. https://doi.org/10.1007/s11365-017-0487-y

• Donthu, N., Kumar, S., & Pattnaik, D. (2020). Forty-five years of Journal of Business Research: A bibliometric analysis. Journal of Business Research, 109, 1–14. https://doi.org/10.1016/j.jbusres.2019.10.039

• Douglas, I., Garvin, S., Lawson, N., Richards, J., Tippett, J., & White, I. (2010). Urban pluvial flooding: A qualitative case study of cause, effect and nonstructural mitigation. Journal of Flood Risk Management, 3(2), 112–125. https://doi.org/10.1111/j.1753-318X.2010.01061.x

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• Escarameia, M., Tagg, A., Walliman, N., Zevenbergen, C., & Anvarifar, F. (2012). The role of building materials in improved flood resilience and routes for implementation [Paper presentation]. 2nd European Conference on Flood Risk Management, FLOODrisk2012, Rotterdam, Netherlands. https://www.researchgate.net/publication/279751554_The_role_of_building_materials_in_improved_flood_resilience_and_routes_for_implementation

• Federal Emergency Management Agency. (2020). Protecting communities the case for adopting building codes. https://www.fema.gov/sites/default/files/documents/fema_bcs-brochure_03-01-21_0.pdf

• Gnan, E., Friedland, C. J., Rahim, M. A., Mostafiz, R. B., Rohli, R. V., Orooji, F., Taghinezhad, A., & McElwee, J. (2022). Improved building-specific flood risk assessment and implications of depth-damage function selection. Frontiers in Water, 4, Article 919726. https://doi.org/10.3389/frwa.2022.919726

• Henderson, D., & Ginger, J. (2008). Role of building codes and construction standards in windstorm disaster mitigation. The Australian Journal of Emergency Management, 23(2), 40-46.

• Hudson, P., Bubeck, P., & Thieken, A. H. (2022). A comparison of flood-protective decision-making between German households and businesses. Mitigation and Adaptation Strategies for Global Change, 27(5), 1-22. https://doi.org/10.1007/s11027-021-09982-1

• International Code Council. (2021a). Delivering climate responsive resilient building codes and standards findings from the global resiliency dialogue survey of building code stakeholders in Canada. https://www.iccsafe.org/wp-content/uploads/Delivering_Resilient_Building_Codes_and_Standards.pdf

• International Code Council. (2021b). Global resiliency dialogue second survey of building code stakeholders-USA delivering climate responsive resilient building codes and standards. https://www.iccsafe.org/wp-content/uploads/Global-Resiliency-Dialogue-Second-Survey-Report-Australia-03112021.pdf

• Ingargiola, J. L., Jones, C. P., & Quinn, R. C. (2013). ASCE 24: Improving the performance of buildings and structures in flood hazard areas. Advances in Hurricane Engineering: Learning from our past - Proceedings of the 2012 ATC and SEI conference on advances in hurricane engineering (pp. 53–66). ASCE Press. https://doi.org/10.1061/9780784412626.006

• Ingargiola, J. L., & Quinn, R. C. (2013). Flood provisions in the International Code series and 2010 Florida building code. Advances in hurricane engineering: Learning from Our Past - Proceedings of the 2012 ATC and SEI conference on advances in hurricane engineering, (pp. 67–80). ASCE Press. https://doi.org/10.1061/9780784412626.007

• Kamarrudin, H., Talib, O., Kamarudin, N., Ismail, N., & Zamin, A. A. M. (2022). Examining the trend of research on active engagement in science education: bibliometric analysis. Journal of Turkish Science Education, 19(3), 937-957. https://doi.org/10.36681/tused.2022.157

• Kent Baker, H., Pandey, N., Kumar, S., & Haldar, A. (2020). A bibliometric analysis of board diversity: Current status, development, and future research directions. Journal of Business Research, 108, 232–246. https://doi.org/10.1016/j.jbusres.2019.11.025

• King, D., Gurtner, Y., Firdaus, A., Harwood, S., & Cottrell, A. (2016). Land use planning for disaster risk reduction and climate change adaptation: Operationalizing policy and legislation at local levels. International Journal of Disaster Resilience in the Built Environment, 7(2), 158–172. https://doi.org/10.1108/IJDRBE-03-2015-0009

• Kondo, T. (2016). Compensation or assistance?: Law and policy for post-disaster housing recovery in the U.S. and Japan. In K. Yuka, M. Katsumi & T. Toshihisa (Eds.), Asian law in disasters: Toward a human-centered recovery (pp.178-187). Routledge Press.

• Kreibich, H., Bubeck, P., van Vliet, M., & de Moel, H. (2015). A review of damage-reducing measures to manage fluvial flood risks in a changing climate. Mitigation and Adaptation Strategies for Global Change, 20(6), 967–989. https://doi.org/10.1007/s11027-014-9629-5

• Lim, W. M., & Kumar, S. (2024). Guidelines for interpreting the results of bibliometric analysis: A sensemaking approach. Global Business and Organizational Excellence, 43(2), 17–26. https://doi.org/10.1002/joe.22229

• López-Marrero, T., & Tschakert, P. (2011). From theory to practice: Building more resilient communities in flood-prone areas. Environment and Urbanization, 23(1), 229–249. https://doi.org/10.1177/0956247810396055

• Lourenço, I. B., Beleño de Oliveira, A. K., Marques, L. S., Quintanilha Barbosa, A. A., Veról, A. P., Magalhães, P. C., & Miguez, M. G. (2020). A framework to support flood prevention and mitigation in the landscape and urban planning process regarding water dynamics. Journal of Cleaner Production, 277(3), Article 122983. https://doi.org/10.1016/j.jclepro.2020.122983

• Maqsood, T., Wehner, M., Dale, K., & Edwards, M. (2016). Cost-effective mitigation strategies for residential buildings in Australian flood plains. International Journal of Safety and Security Engineering, 6(3), 550–559. https://doi.org/10.2495/SAFE-V6-N3-550-559

• Miano, A., Sezen, H., Jalayer, F., & Prota, A. (2019). Performance-based assessment methodology for retrofit of buildings. Journal of Structural Engineering (United States), 145(12), Article 04019144. https://doi.org/10.1061/(ASCE)ST.1943-541X.0002419

• Nik Hassan, N. M. H., Talib, O., Shariman, T. P., Rahman, N. A., & Zamin, A. A. M. (2022). A bibliometric analysis on how organic chemistry education research has evolved collaboratively over time. Jurnal Pendidikan IPA Indonesia, 11(1), 73–90. https://doi.org/10.15294/jpii.v11i1.34185

• Nissanka Arachchige, C. S., Amaratunga, D., & Haigh, R. (2020). Disaster resilient building codes in Sri Lanka. 10th International Conference on Structural Engineering and Construction Management (ICSECM) (Vol. 1, pp. 146-152). University of Peradeniya. https://pure.hud.ac.uk/en/publications/disaster-resilient-building-codes-in-sri-lanka

• Nwadike, A. N., & Wilkinson, S. (2021). An evidence-based framework validation for building code improvement in New Zealand. Engineering Construction & Architectural Management, 29(8), 3072-3090. https://doi.org/10.1108/ECAM-08-2020-0604.

• Nwadike, A. N., & Wilkinson, S. (2022). Unintended consequences of performance-based building code amendment in New Zealand. Journal of Performance of Constructed Facilities, 36(3), 1-13. https://doi.org/10.1061/(asce)cf.1943-5509.0001728

• Nwadike, A. N., Wilkinson, S., & Aigwi, I. E. (2020). Identification of parameters to develop an evidence-based framework to improve building code amendment in New Zealand. The 54th International Conference of the Architectural Science Association (ANZAScA) (pp. 570–579). Architectural Science Association. https://ir.canterbury.ac.nz/items/343da504-0355-467a-97dc-448bb19955b5

• Orooji, F., Friedland, C. J., Savio, R. D., Taghinezhad, A., Massarra, C. C., Bushra, N., & Rohli, R. V. (2022). Generalized cost-effectiveness of residential wind mitigation strategies for wood-frame, single family house in the USA. Frontiers in Built Environment, 7(1), Article 745914. https://doi.org/10.3389/fbuil.2021.745914

• Paprotny, D., Kreibich, H., Morales-Nápoles, O., Castellarin, A., Carisi, F., & Schröter, K. (2020). Exposure and vulnerability estimation for modelling flood losses to commercial assets in Europe. Science of the Total Environment, 737(1), Article 140011. https://doi.org/10.1016/j.scitotenv.2020.140011

• Paprotny, D., Kreibich, H., Morales-Nápoles, O., Wagenaar, D., Castellarin, A., Carisi, F., Bertin, X., Merz, B., & Schröter, K. (2021). A probabilistic approach to estimating residential losses from different flood types. Natural Hazards, 105(3), 2569–2601. https://doi.org/10.1007/s11069-020-04413-x

• Piatek, Ł., & Wojnowska-Heciak, M. (2020). Multicase study comparison of different types of flood-resilient buildings (Elevated, amphibious, and floating) at the Vistula river in Warsaw, Poland. Sustainability (Switzerland), 12(22), 1–20. https://doi.org/10.3390/su12229725

• Pradhan, N. S., Su, Y., Fu, Y., Zhang, L., & Yang, Y. (2017). Analyzing the effectiveness of policy implementation at the local level: A case study of management of the 2009–2010 drought in Yunnan Province, China. International Journal of Disaster Risk Science, 8(1), 64–77. https://doi.org/10.1007/s13753-017-0118-9

• Puspitarini, D., Degeng, I. N. S., Praherdhiono, H., & Suryati, N. (2023). Humanistic Pesantren: Systematic literature review and bibliometric visualization analysis on character, moral, and ethical values. Pertanika Journal of Social Sciences and Humanities, 31(2), 465–490. https://doi.org/10.47836/PJSSH.31.2.01

• Rezende, O. M., Miranda, F. M., Haddad, A. N., & Miguez, M. G. (2019). A framework to evaluate urban flood resilience of design alternatives for flood defence considering future adverse scenarios. Water(Switzerland), 11(7), 1485. https://doi.org/10.3390/w11071485

• Ripple, J. (2020). Building codes don’t measure up: A case for urban material performance standards. In B. E. Brownell (Ed.), Examining the Environmental Impacts of Materials and Buildings (pp. 32–63). IGI Global. https://doi.org/10.4018/978-1-7998-2426-8.ch002

• Saja, A. M. A., Teo, M., Goonetilleke, A., & Ziyath, A. M. (2021). A critical review of social resilience properties and pathways in disaster management. International Journal of Disaster Risk Science, 12(6), 790–804. https://doi.org/10.1007/s13753-021-00378-y

• Tariq, H., Pathirage, C., & Fernando, T. (2021). Measuring community disaster resilience at local levels: An adaptable resilience framework. International Journal of Disaster Risk Reduction, 62(5), Article 102358. https://doi.org/10.1016/j.ijdrr.2021.102358

• Thepot, R., Goujard, P., & Gache, F. (2016, October 17-21). Impact of the new Sendai framework for disaster risk reduction on Paris flood prevention program [Paper presentation]. 3rd European Conference on Flood Risk Management, Lyon, France. https://doi.org/10.1051/e3sconf/20160717002

• United Nations for Disaster Risk Reduction. (2015). Chart of the sendai framework for disaster risk reduction 2030. https://www.undrr.org/publication/chart-sendai-framework-disaster-risk-reduction-2015-2030

• Wahid, R., Ahmi, A., & Alam, A. S. A. F. (2020). Growth and collaboration in massive open online courses: A bibliometric analysis. International Review of Research in Open and Distance Learning, 21(4), 292–322. https://doi.org/10.19173/IRRODL.V21I4.4693

• Wang, Z., Liu, J., Xu, N., Fan, C., Fan, Y., He, S., Jiao, L., & Ma, N. (2019). The role of indigenous knowledge in integrating scientific and indigenous knowledge for community-based disaster risk reduction: A case of Haikou Village in Ningxia, China. International Journal of Disaster Risk Reduction, 41(9), Article 101309. https://doi.org/10.1016/j.ijdrr.2019.101309

• Wedel, R., Cribben, C., & Grundberg, J. (2008). Community-based disaster risk management: experiences from Indonesia. International Organization for Migration (IOM) Indonesia. https://www.humanitarianlibrary.org/sites/default/files/2013/07/30_CBDRM_Handbook_english_lo.pdf

• Wei, W., Mojtahedi, M., Yazdani, M., & Kabirifar, K. (2021). The alignment of Australia’s national construction code and the Sendai framework for disaster risk reduction in achieving resilient buildings and communities. Buildings, 11(10), Article 429. https://doi.org/10.3390/buildings11100429

• Wilkinson, S., Clifton, G. C., Nwadike, A., & Clifton, C. (2019). Improving disaster resilience through effective building code compliance [Paper presentation]. 9th I-Rec Conference 2019, Florida, USA. http://www.grif.umontreal.ca/i-rec/i-Rec2019/Improving%20disaster%20resilience%20through%20effective%20building%20code%20compliance.pdf

• Zairul, M. (2021). A thematic review on Industrialised Building System (IBS) publications from 2015-2019: Analysis of patterns and trends for future studies of IBS in Malaysia. Pertanika Journal of Social Sciences and Humanities, 29(1), 635–652. https://doi.org/10.47836/PJSSH.29.1.35

• Zhu, J., & Liu, W. (2020). A tale of two databases: The use of Web of Science and Scopus in academic papers. Scientometrics, 123(1), 321–335. https://doi.org/10.1007/s11192-020-03387-8