Tel:
Email: xu.weiguo@sz.tsinghua.edu.cn
Address: Tsinghua SIGS 310, Building H
2006-03, Kyoto University, Architecture , PhD
1986.07, Tsinghua University, Architecture, Master
1983.07, Tsinghua University, Architecture, Bachelor
2023.04-Present, Tsinghua SIGS, Professor
2000.12-2023.03, Tsinghua University, Professor
1993.12-2000.11, Tsinghua University, Associate Professor
1986.8-1993.11, Tsinghua University, Lecturer
2011-2012, SCI-Arc and USC , Guest Professor
2007, MIT, Visiting Scholar
[1] Li Y, Xu W. A deep learning-based framework for intelligent modeling: From architectural
sketch to 3D model[J]. Frontiers of Architectural Research, 2025 (In press).
[2] 黄舒弈, 徐卫国. 基于 3D 打印混凝土技术的建筑学交叉学科研究新路径探索[J]. 建筑学报, 2024,
30(S2): 176-182.
[3] Huang S, Xu W, Anton A, Dillenburger B. Self-supporting lamellae: Shape variation methods
for the 3D concrete printing of large overhang structures[J]. Additive Manufacturing, 2024, 91:
104329.
[4] Huang S, Xu W, Hu H. Space-filling and print path generation methods for large-area 3D
concrete printing pavements[J]. Architectural Intelligence, 2023, 2(01): 13.
[5] Xu W, Huang S, Han D, et al. Toward automated construction: The design-to-printing
workflow for a robotic in-situ 3D printed house[J]. Case Studies in Construction Materials, 2022,
17: e01442.
[6] Huang S, Xu W, Li Y. The impacts of fabrication systems on 3D concrete printing building
forms[J]. Frontiers of Architectural Research, 2022, 11: 653-669.
[7] 徐卫国. 走向智能机器人力设计建造新时代[J]. 世界建筑, 2022(11): 42-43.
[8] 黄舒弈, 张宇, 徐卫国. 机械臂 3D 打印混凝土的打印路径规划方法探索[J]. 建筑技艺, 2022, 28(07):
79-81.
[9] 徐卫国, 张宇, 高远, 孙晨炜. 机器人3D打印技术在公园建造中的应用——深圳宝安3D打印公园打印
建设介绍[J]. 建筑技艺, 2022, 28(07): 82-85.
[10] 刘洁, 刘星辰, 徐卫国. 互感、互知、互联——智能机器人时代的建筑[J]. 当代建筑, 2022(06): 14-18.
[11] Dan Luo, Weiguo Xu. Adaptable method for dynamic planning of 3d spatial wireframes
extrusion with neural networks and robotic automation[J]. 3D Printing and Additive
Manufacturing, 2021(6).
[12] W Xu, Y Gao, C Sun, Z Wang. Fabrication and application of 3D-printed concrete structural
components in the Baoshan Pedestrian Bridge Project. Fabricate 2020, 140-147
[13] Luo D, Chen D, Wang J, Zhu G, Xu W. The smart robot crafting approach to computing
materials[J]. Construction Robotics, 2020, 4(3): 239-249.
[14] 徐卫国. 数字建筑设计与建造的发展前景[J]. 当代建筑, 2020, No.2(02): 20-22.[15] 徐卫国. 世界最大的混凝土 3D 打印步行桥[J]. 建筑技艺, 2019, 281(02): 6-9.
[16] 徐卫国. 有厚度的结构表皮[J]. 建筑学报, 2014(8): 1-5.
[17] 徐卫国. 数字图解[J]. 时代建筑, 2012(5): 56-59.
[18] 徐卫国. 参数化设计与算法生形[J]. 世界建筑, 2011(6): 110-111.
[19] 徐卫国. 褶子思想,游牧空间——关于非线性建筑参数化设计的访谈[J]. 世界建筑, 2009(08): 16-17.
[20] 徐卫国. 数字建构[J]. 建筑学报, 2009(01): 61-68.
[21] 徐卫国, 陶晓晨. 批判的图解--作为抽象机器的数字图解及现象因素的形态转化[J]. 世界建筑,
2008(05): 114-119.
[22] 徐卫国. 非线性体:表现复杂性[J]. 世界建筑, 2006(12).
[23] 徐卫国. 非线性建筑设计[J]. 建筑学报, 2005(12): 32-35.
[1] 徐卫国,张鹏宇. 当代中国数字建筑设计(Digital Architecture in Contemporary China,中英文 2
本)[M]. The Images Publishing Group PTY LTD in Australia,广西师范大学出版社,2022.
[2] 徐卫国. 数字建筑设计理论与方法[M]. 北京: 中国建筑工业出版社,2019.
[3] 徐卫国,李宁. 生物形态的建筑数字图解[M]. 北京: 建筑工业出版社,2018.
[4] 徐卫国, 数字建筑设计作品集[M]. 北京: 清华大学出版社,2016.
[5] 徐卫国, 参数化非线性建筑设计[M]. 北京: 清华大学出版社,2016.
[6] Xu Weiguo,Neil Leach, DIGITAL FACTORY- ADVANCED COMPUTATIONAL RESEARCH.
BEIJING:China Architecture & Building Press,2015.
[7] Xu Weiguo,Neil Leach, DESIGN INTELLIGENCE-ADVANCED COMPUTATIONAL RESEARCH.
BEIJING:China Architecture & Building Press,2013.
[8] Neil Leach, Xu Weiguo. MACHINIC PROCESSES(2 BOOKS). BEIJING:China Architecture &
Building Press,2010.
[9] Neil Leach, Xu Weiguo. (IM)MATERIAL PROCESSES-NEW DIGITAL TECHNIQUES FOR
ARCHITECTURE(2 BOOKS).BEIJING:China Architecture & Building Press,2008.
[10] Neil Leach, Xu Weiguo. FAST FORWARD>>HOT SPOT/BRAIN CELLS. HK: Map Office
Publisher, 2004.
[11] Neil Leach, Xu Weiguo. EMERGING TALENTS,EMERGING TECHNOLOGIES(2 BOOKS).
BEIJING:China Architecture & Building Press,2006.
