How to cite this paper
Sadi-Nezhad, S. (2019). A scientometrics study on green building: A DEA application.Journal of Project Management, 4(3), 189-194.
Refrences
Adler, N., Friedman, L., & Sinuany-Stern, Z. (2002). Review of ranking methods in the data en-velopment analysis context. European Journal of Operational Research, 140(2), 249-265.
Ali, H. H., & Al Nsairat, S. F. (2009). Developing a green building assessment tool for developing countries–Case of Jordan. Building and Environment, 44(5), 1053-1064.
Charnes, A., Clark, C. T., Cooper, W. W., & Golany, B. (1984). A developmental study of data envelopment analysis in measuring the efficiency of maintenance units in the US air forc-es. Annals of operations Research, 2(1), 95-112.
Chan, E. H., Qian, Q. K., & Lam, P. T. (2009). The market for green building in developed Asian cities—the perspectives of building designers. Energy Policy, 37(8), 3061-3070.
Chau, C. K., Tse, M. S., & Chung, K. Y. (2010). A choice experiment to estimate the effect of green experience on preferences and willingness-to-pay for green building attributes. Building and Environment, 45(11), 2553-2561.
Corinaldesi, V., & Moriconi, G. (2009). Influence of mineral additions on the performance of 100% recycled aggregate concrete. Construction and Building Materials, 23(8), 2869-2876.
Ding, G. K. (2008). Sustainable construction—The role of environmental assessment tools. Journal of Environmental Management, 86(3), 451-464.
Evins, R. (2013). A review of computational optimisation methods applied to sustainable building design. Renewable and Sustainable Energy Reviews, 22, 230-245.
Halkos, G. E., & Salamouris, D. S. (2004). Efficiency measurement of the Greek commercial banks with the use of financial ratios: a data envelopment analysis approach. Management ac-counting research, 15(2), 201-224.
Hwang, B. G., & Tan, J. S. (2012). Green building project management: obstacles and solutions for sustainable development. Sustainable Development, 20(5), 335-349.
Kuo, F. E., & Sullivan, W. C. (2001). Aggression and violence in the inner city: Effects of envi-ronment via mental fatigue. Environment and Behavior, 33(4), 543-571.
Leaman, A., & Bordass, B. (2007). Are users more tolerant of ‘green’ buildings?. Building Re-search & Information, 35(6), 662-673.
Lertworasirikul, S., Fang, S. C., Joines, J. A., & Nuttle, H. L. (2003). Fuzzy data envelopment analysis (DEA): a possibility approach. Fuzzy Sets and Systems, 139(2), 379-394.
Li, D. H., Lam, T. N., & Wong, S. L. (2006). Lighting and energy performance for an office using high frequency dimming controls. Energy Conversion and Management, 47(9-10), 1133-1145.
Liu (2015). A green building evaluation modeling method based on eco-efficiency and data en-velopment analysis. International Journal of Earth Sciences and Engineering, 8(4), 1942-1949
Liu, H., Liu, Y., Wang, H., Yang, J., & Zhou, X. (2019). Research on the coordinated develop-ment of greenization and urbanization based on system dynamics and data envelopment analy-sis——A case study of Tianjin. Journal of Cleaner Production, 214, 195-208.
McDonald, K. (2005). Physicist proposes new way to rank scientific output. Phys Org.
Meyer, C. (2009). The greening of the concrete industry. Cement and Concrete Composites, 31(8), 601-605.
Ortiz, O., Castells, F., & Sonnemann, G. (2009). Sustainability in the construction industry: A re-view of recent developments based on LCA. Construction and Building Materials, 23(1), 28-39.
Qi, G. Y., Shen, L. Y., Zeng, S. X., & Jorge, O. J. (2010). The drivers for contractors’ green inno-vation: an industry perspective. Journal of Cleaner Production, 18(14), 1358-1365.
Shaikh, P. H., Nor, N. B. M., Nallagownden, P., Elamvazuthi, I., & Ibrahim, T. (2014). A review on optimized control systems for building energy and comfort management of smart sustaina-ble buildings. Renewable and Sustainable Energy Reviews, 34, 409-429.
Tam, C. M., Tam, V. W., & Tsui, W. S. (2004). Green construction assessment for environmental management in the construction industry of Hong Kong. International Journal of Project Man-agement, 22(7), 563-571.
Vyas, G. S., & Jha, K. N. (2017). Benchmarking green building attributes to achieve cost effec-tiveness using a data envelopment analysis. Sustainable Cities and Society, 28, 127-134.
Wang, W., Zmeureanu, R., & Rivard, H. (2005). Applying multi-objective genetic algorithms in green building design optimization. Building and Environment, 40(11), 1512-1525.
Zhang, X., Platten, A., & Shen, L. (2011). Green property development practice in China: costs and barriers. Building and environment, 46(11), 2153-2160.
Zhou, P. F., Bai, Y. H., & Ge, D. (2013). DEA based performance evaluation model of green con-struction supply chain. Applied Mechanics and Materials, 291, 1064-1067.
Zuo, J., & Zhao, Z. Y. (2014). Green building research–current status and future agenda: A re-view. Renewable and Sustainable Energy Reviews, 30, 271-281.
Ali, H. H., & Al Nsairat, S. F. (2009). Developing a green building assessment tool for developing countries–Case of Jordan. Building and Environment, 44(5), 1053-1064.
Charnes, A., Clark, C. T., Cooper, W. W., & Golany, B. (1984). A developmental study of data envelopment analysis in measuring the efficiency of maintenance units in the US air forc-es. Annals of operations Research, 2(1), 95-112.
Chan, E. H., Qian, Q. K., & Lam, P. T. (2009). The market for green building in developed Asian cities—the perspectives of building designers. Energy Policy, 37(8), 3061-3070.
Chau, C. K., Tse, M. S., & Chung, K. Y. (2010). A choice experiment to estimate the effect of green experience on preferences and willingness-to-pay for green building attributes. Building and Environment, 45(11), 2553-2561.
Corinaldesi, V., & Moriconi, G. (2009). Influence of mineral additions on the performance of 100% recycled aggregate concrete. Construction and Building Materials, 23(8), 2869-2876.
Ding, G. K. (2008). Sustainable construction—The role of environmental assessment tools. Journal of Environmental Management, 86(3), 451-464.
Evins, R. (2013). A review of computational optimisation methods applied to sustainable building design. Renewable and Sustainable Energy Reviews, 22, 230-245.
Halkos, G. E., & Salamouris, D. S. (2004). Efficiency measurement of the Greek commercial banks with the use of financial ratios: a data envelopment analysis approach. Management ac-counting research, 15(2), 201-224.
Hwang, B. G., & Tan, J. S. (2012). Green building project management: obstacles and solutions for sustainable development. Sustainable Development, 20(5), 335-349.
Kuo, F. E., & Sullivan, W. C. (2001). Aggression and violence in the inner city: Effects of envi-ronment via mental fatigue. Environment and Behavior, 33(4), 543-571.
Leaman, A., & Bordass, B. (2007). Are users more tolerant of ‘green’ buildings?. Building Re-search & Information, 35(6), 662-673.
Lertworasirikul, S., Fang, S. C., Joines, J. A., & Nuttle, H. L. (2003). Fuzzy data envelopment analysis (DEA): a possibility approach. Fuzzy Sets and Systems, 139(2), 379-394.
Li, D. H., Lam, T. N., & Wong, S. L. (2006). Lighting and energy performance for an office using high frequency dimming controls. Energy Conversion and Management, 47(9-10), 1133-1145.
Liu (2015). A green building evaluation modeling method based on eco-efficiency and data en-velopment analysis. International Journal of Earth Sciences and Engineering, 8(4), 1942-1949
Liu, H., Liu, Y., Wang, H., Yang, J., & Zhou, X. (2019). Research on the coordinated develop-ment of greenization and urbanization based on system dynamics and data envelopment analy-sis——A case study of Tianjin. Journal of Cleaner Production, 214, 195-208.
McDonald, K. (2005). Physicist proposes new way to rank scientific output. Phys Org.
Meyer, C. (2009). The greening of the concrete industry. Cement and Concrete Composites, 31(8), 601-605.
Ortiz, O., Castells, F., & Sonnemann, G. (2009). Sustainability in the construction industry: A re-view of recent developments based on LCA. Construction and Building Materials, 23(1), 28-39.
Qi, G. Y., Shen, L. Y., Zeng, S. X., & Jorge, O. J. (2010). The drivers for contractors’ green inno-vation: an industry perspective. Journal of Cleaner Production, 18(14), 1358-1365.
Shaikh, P. H., Nor, N. B. M., Nallagownden, P., Elamvazuthi, I., & Ibrahim, T. (2014). A review on optimized control systems for building energy and comfort management of smart sustaina-ble buildings. Renewable and Sustainable Energy Reviews, 34, 409-429.
Tam, C. M., Tam, V. W., & Tsui, W. S. (2004). Green construction assessment for environmental management in the construction industry of Hong Kong. International Journal of Project Man-agement, 22(7), 563-571.
Vyas, G. S., & Jha, K. N. (2017). Benchmarking green building attributes to achieve cost effec-tiveness using a data envelopment analysis. Sustainable Cities and Society, 28, 127-134.
Wang, W., Zmeureanu, R., & Rivard, H. (2005). Applying multi-objective genetic algorithms in green building design optimization. Building and Environment, 40(11), 1512-1525.
Zhang, X., Platten, A., & Shen, L. (2011). Green property development practice in China: costs and barriers. Building and environment, 46(11), 2153-2160.
Zhou, P. F., Bai, Y. H., & Ge, D. (2013). DEA based performance evaluation model of green con-struction supply chain. Applied Mechanics and Materials, 291, 1064-1067.
Zuo, J., & Zhao, Z. Y. (2014). Green building research–current status and future agenda: A re-view. Renewable and Sustainable Energy Reviews, 30, 271-281.