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[ 2] Pengyuan Shen, William Braham, Yunkyu Yi, Eric Eaton, Rapid multi-objective optimization with multi-year future weather condition and decision-making support for building retrofit, Energy, Volume 172, 2019, 892-912.

[ 3] Ayca Kirimtat, Ondrej Krejcar, Berk Ekici, M. Fatih Tasgetiren, Multi-objective energy and daylight optimization of amorphous shading devices in buildings, Solar Energy, Volume 185, 2019, 100-111.

[ 4] Fabrizio Ascione, Nicola Bianco, Gerardo Maria Mauro, Giuseppe Peter Vanoli, A new comprehensive framework for the multi-objective optimization of building energy design: Harlequin, Applied Energy, Volume 241, 2019, 331-361.

[ 5] Ehsan Kamel, Ali M. Memari, Review of BIM's application in energy simulation: Tools, issues, and solutions, Automation in Construction, Volume 97, 2019, 164-180.

[ 6] Rodger E. Edwards, Eric Lou, Anas Bataw, Syahrul Nizam Kamaruzzaman, Christopher Johnson, Sustainability-led design: Feasibility of incorporating whole-life cycle energy assessment into BIM for refurbishment projects, Journal of Building Engineering, Volume 24, 2019, 100697.

[ 7] Vincent J.L. Gan, M. Deng, K.T. Tse, C.M. Chan, Irene M.C. Lo, Jack C.P. Cheng, Holistic BIM framework for sustainable low carbon design of high-rise buildings, Journal of Cleaner Production, Volume 195, 2018, 1091-1104.

[ 8] U. Vitiello, V. Ciotta, A. Salzano, D. Asprone, G. Manfredi, E. Cosenza, BIM-based approach for the cost-optimization of seismic retrofit strategies on existing buildings, Automation in Construction, Volume 98, 2019, 90-101.

[ 9] Worawan Natephra, Nobuyoshi Yabuki, Tomohiro Fukuda, Optimizing the evaluation of building envelope design for thermal performance using a BIM-based overall thermal transfer value calculation, Building and Environment, Volume 136, 2018, 128-145.

[20] Mohammad Rahmani Asl, Saied Zarrinmehr, Michael Bergin, Wei Yan, BPOpt: A framework for BIM-based performance optimization, Energy and Buildings, Volume 108, 2015, 401-412.

[2 ] Mohammad Rahmani Asl, Michael Bergin, Adam Menter, Wei Yan, BIM-based Parametric Building Energy Performance Multi-Objective Optimization, 32nd International Conference on Education and Research in Computer Aided Architectural Design in Europe, 2014: 455-464.

[22] Jungsik Choi, Jihye Shin, Minchan Kim, Inhan Kim, Development of openBIM-based energy analysis software to improve the interoperability of energy performance assessment, Automation in Construction, Volume 72, Part 1, 2016, 52-64.

[23] Youngjib Ham, Mani Golparvar-Fard, Mapping actual thermal properties to building elements in gbXML-based BIM for reliable building energy performance modeling, Automation in Construction, Volume 49, Part B, 2015, 214-224.

[24] Ahmad Eltaweel, Yuehong Su, Controlling venetian blinds based on parametric design; via implementing Grasshopper’s plugins: A case study of an office building in Cairo, Energy and Buildings, Volume 139, 2017, 31-43.

[25] Wei Yu, Baizhan Li, Hongyuan Jia, Ming Zhang, Di Wang, Application of multi-objective genetic algorithm to optimize energy efficiency and thermal comfort in building design, Energy and Buildings, Volume 88, 2015, 135-143.

[26] Yunsong Han, Hong Yu, Cheng Sun, Simulation-Based Multiobjective Optimization of Timber-Glass Residential Buildings in Severe Cold Regions, sustainability, Volume 9, 2017, 2353.

[27] Binghui Si, Jianguo Wang, Xinyue Yao, Xing Shi, Xing Jin, Xin Zhou, Multi-objective optimization design of a complex building based on an artificial neural network and performance evaluation of algorithms, Advanced Engineering Informatics, Volume 40, 2019, 93-109.

[28] 孙澄,韩昀松.光热性能考虑下的严寒地区办公建筑形态节能设计研究[J].建筑学报,2016(02):38-42.

[29] Yujie Lu, Zhilei Wu, Ruidong Chang, Yongkui Li, Building Information Modeling (BIM) for green buildings: A critical review and future directions, Automation in Construction, Volume 83, 2017, 134-148.

[30] Jong Bum Kim, WoonSeong Jeong, Mark J. Clayton, Jeff S. Haberl, Wei Yan, Developing a physical BIM library for building thermal energy simulation, Automation in Construction, Volume 50, 2015, 16-28.

[3 ] Yun Kyu Yi, Building facade multi-objective optimization for daylight and aesthetical perception, Building and Environment, Volume 156, 2019, 178-190.

[32] Mitja Ko?ir, Nata?a Igli?, Roman Kuni?, Optimisation of heating, cooling and lighting energy performance of modular buildings in respect to location’s climatic specifics, Renewable Energy, Volume 129, Part A, 2018, 527-539.

[33] Christoph F. Reinhart, Oliver Walkenhorst, Validation of dynamic RADIANCE-based daylight simulations for a test office with external blinds, Energy and Buildings, Volume 33, Issue 7, 2001, 683-697.

[34] Christoph F. Reinhart, Jan Wienold, The daylighting dashboard – A simulation-based design analysis for daylit spaces, Building and Environment, Volume 46, Issue 2, 2011, 386-396.

[35] GB 50033-2013. Standard for Daylighting Design of Buildings; China Architecture & Building Press: Beijing, China, 2013; p. 8.