1.国家自然科学基金面上项目, “分层摇摆自复位钢框架扭转效应及其控制”, 2023.01-2026.12, 课题负责人.

2.同济大学学科交叉联合攻关项目，“电热协同双稳态可展折光伏太空舱设计理论与方法研究”，2023.06-2025.06，课题负责人.

3.国际联合试验室ILEE国际合作研究项目, “ROBUST Building Systems”, 在研，课题骨干.

4.国家自然科学基金面上项目, “分层摇摆自复位钢框架的减隔震机理及设计方法”, 2020.01-2023.12, 课题负责人.

5.国家重点研发计划重点专项“智能结构体系研究与示范应用”项目的课题“高效耗能、限度损伤与可恢复功能抗震结构体系”, 2018.01-2021.12，子课题负责人.

6.上海市“科技创新行动计划”优秀学术带头人项目，“城市振动污染图大数据研究”，2019-04-2022-03, 第二主持人.

7.国家创新重点项目, “轻质结构”, 2018.12-2020.12, 课题负责人.

8.国家自然科学面上基金项目, “涂层织物类膜材撕裂强度及其对膜结构破坏的影响”, 2018.01-2021.12, 课题参与.

9.国家重点研发计划重点专项“城市地下综合管廊安全防控技术研究及示范”，2017.01-2020.12，课题参与.

10.民用航天“十三五”技术预先研究项目, “结构展开与控制技术”, 2019.01-2020.12, 课题骨干.

11.国家自然科学青年科学基金项目, “长周期地震下高层建筑中多重TMD楼板减隔震体系的减震机理和优化设计”, 2017.01-2019.12, 课题负责人.

12.国家载人航天工程项目子课题, “形状和张力保持装置设计加工与测试”, 2018.09-2021.07, 课题负责人.

13.同济大学青年优秀人才培养行动计划, “多重可动楼板结构控制体系”, 2016-2018，课题负责人.

14.同济大学重点科研项目培育基金，“空间可展开XX结构的设计关键技术”, 2017-2018, 课题骨干.

15.早稻田大学特定课题研究助成项目, “TMD床を持つ建物の地震時振動制御に関する研究 [Study on seismic vibration control of building structures equipped with TMD floors]”, 2014-2016, 课题负责人.

16.日本科学研究費助成项目, “層間変位計測を前提とした建築構造物の簡易健全度判定システムの構築 [Structural health monitoring scheme based on directly measured inter-story drift displacement response information]”, 2014-2017, 课题参与.

17.日本校企共同研究项目, “高度安全性を備えた医療施設の実現に向けた実大手術室モデルの振動台実験 [Full-scale shaking table tests to evaluate damage to medical equipment in hospitals during huge earthquakes]”, 项目合作单位：順天堂病院，清水建設.

18.日本校企共同研究项目, “建築物の安全、安心のための次世代センサネットワーク [The next generation wireless sensor network for structural safety and public security]”, 项目合作单位：鹿島建設.

1. Ping Xiang, Yiqing Liu, Wang Li, Ladislas Thibout, Liang-jiu Jia. Experimental study and seismic design of swing story-lateral force resisting structural system. International Journal of Structural Stability and Dynamics, 2023, online ready.
2. Hongliang Liu, Liang-Jiu Jia, Yu-Ao Lin, Ping Xiang. Effects of interface conditions on tribological and hysteretic behaviors of symmetric friction connections. Engineering Structures, 2024, 302(3): 117405.
3. Rui Zhang, Zhenduo Yan, Jiang-Yue Xie, Junrong Liu, Liang-Jiu Jia, Ping Xiang, Xianzhong Zhao, Gregory A. MacRae, G. Charles Clifton, Rajesh P. Dhakal, Shahab Ramhormozian. Weak axis low-damage performance of seismic resilient rocking steel column base with friction connection. Journal of Building Engineering, 2024, 86(6): 108778.
4. Junrong Liu, Rui Zhang, Zhenduo Yan, Jiang-Yue Xie, Kim Eng Chouery, Liang-Jiu Jia, Ping Xiang, Xianzhong Zhao, Shahab Ramhormozian, Rajesh P. Dhakal, G. Charles Clifton, Gregory A. MacRae. Experimental study on low-damage performance of sliding hinge joint. Soil Dynamics and Earthquake Engineering, 2023, 169:107871.
5. Rui Zhang, Zhenduo Yan, Junrong Liu, Jiang-Yue Xie, Kim Eng Chouery, Ping Xiang, Xianzhong Zhao, Gregory A. MacRae, G. Charles Clifton, Rajesh P. Dhakal, Shahab Ramhormozian, Liang-Jiu Jia. Seismic performance of a low-damage rocking column base joint along weak axis. Journal of Building Engineering, 2023, 67:106056.
6. Zhenduo Yan, Shahab Ramhormozian, G. Charles Clifton, Rui Zhang, Ping Xiang, Liang-Jiu Jia, Gregory A. MacRae, Xianzhong Zhao. Numerical studies on the seismic response of a three-storey low-damage steel framed structure incorporating seismic friction connections. Resilient Cities and Structures, 2023, 2(1):91-102.
7. Ping Xiang, Guanqing Song, Kui Fan, et al. Shaking table test on a low-damage controlled multiple-rocking-column steel frame. Engineering Structures, 2022, 254: 113896.
8. Liangjiu Jia, Fan Kui, Ping Xiang, et al. Shaking table test on single-story rocking-column steel frame under excitations along strong axis. Structural Control and Health Monitoring, 2022, 29(12): e3125.
9. Di Wu, Minger Wu, Ping Xiang, et al. Surface accuracy analysis and optimization design of rib-mesh paraboloidal antenna reflectors. Aerospace Science and Technology, 2022, 129: 107817.
10. Zuoshuai Sun, Ping Xiang, Liangjiu Jia, et al. Seismic response and kinematic mechanisms of single-story pavilion-type timber frame based on shaking table test. Structures, 2022, 45(11): 1701-1716.
11. Rui Zhang, Jiang-Yue Xie, Kim Eng Chouery, Junrong Liu, Liang-Jiu Jia, Ping Xiang, et al. Strong axis low-damage performance of rocking column-base joints with asymmetric friction connections. Journal of Constructional Steel Research, 2022, 191: 107175.
12. Ruihong Xie, Zhuofeng Li, Ping Xiang, et al. Dynamic behaviors of steel multiple-rocking-column structural system with rocking stoppers. Engineering Structures, 2021, 243: 112649.
13. Di Wu, Minger Wu, Ping Xiang, et al. A novel construction method of stretching knitted metallized mesh in deployable rib-membrane structure. IASS2020/21 - SURREY 7: Inspiring the next generation, August 23rd-27th 2021.
14. Zhongxi Yan, Minger Wu, Ping Xiang, et al. Geometry optimization and laminate layup design of CFRP boom with lenticular cross section. IASS2020/21 - SURREY 7: Inspiring the next generation, August 23rd-27th 2021.
15. Can Chen, Ping Xiang, Liangjiu Jia, et al. ILEE ROBUST PROJECT: Seismic behaviour of glazed curtain walls in a low-damage structural steel building. 17 WCEE, 2021.
16. Kui Fan, Liangjiu Jia, Ping Xiang, et al. ILEE ROBUST PROJECT: Development of a multiple rocking steel structural system. 17 WCEE, 2021.
17. Ping Xiang, Ruihong Xie, Zhuofeng Li, Liangjiu Jia Jiangyue Xie. Seismic performance of a single-story articulated steel structure system. Journal of Engineering Mechanics (ASCE), 2020, 146(10): 04020108.
18. Ping Xiang, Zifei Qing , Liangjiu Jia, Minger Wu, Jiangyue Xie. Damage evaluation and ultra-low-cycle fatigue analysis of high-rise steel frame with mesoscopic fracture models. Soil Dynamics & Earthquake Engineering, 2020, 139: 106283.
19. Minger Wu, Tianhao Zhang, Ping Xiang, Fuling Guan. Single-layer deployable truss structure driven by elastic components. Journal of Aerospace Engineering (ASCE), 2019, 32(2): 04018144.
20. Hongming Hu, Minger Wu, Ping Xiang, Yiting Liu. Forming and cyclic loading tests of ETFE cushions based on flat-patterning method. Thin-Walled Structures, 2019, 135: 317-328.
21. Liangjiu Jia, Yang Dong, Hanbin Ge, Kana Kondo, Ping Xiang. Experimental study on high-performance buckling-restrained braces with perforated core plates. International Journal of Structural Stability and Dynamics, 2019, 19(1): 1940004.
22. Liangjiu Jia, Ping Xiang, Minger Wu, Akira Nishitani. Swing story–lateral force resisting system connected with dampers: novel seismic vibration control system for building structures. Journal of Engineering Mechanics (ASCE), 2018, 144(2): 04017159.
23. Mingzhe Shi, Ping Xiang, Minger Wu. Experimental investigation on bending and shear performance of two-way aluminum alloy gusset joints. Thin-Walled Structures, 2018, 122: 124-136.
24. Liangjiu Jia, Hanbin Ge*, Ping Xiang, Yan Liu. Seismic performance of fish-bone shaped buckling-restrained braces with controlled damage process. Engineering Structures, 2018, 169: 141-153.
25. Ping Xiang, Mingzhe Shi, Liangjiu Jia, Minger Wu, Chunlin Wang. Constitutive model of aluminum under variable-amplitude cyclic loading and its application to buckling-restrained braces. Journal of Materials in Civil Engineering (ASCE), 2018, 30(3): 04017304.
26. Liangjiu Jia, Ruiwen Li, Ping Xiang, Deyuan Zhou, Yang Dong. Resilient steel frames installed with self-centering dual-steel buckling-restrained brace. Journal of Constructional Steel Research, 2018, 149:95-104.
27. Ping Xiang, Akira Nishitani, Minger Wu. Seismic vibration and damage control of high-rise structures with the implementation of a pendulum-type nontraditional tuned mass damper. Structural Control and Health Monitoring, 2017, 24(12): e2022.
28. Ping Xiang, Akira Nishitani. Structural vibration control with the implementation of a pendulum-type nontraditional tuned mass damper system. Journal of Vibration and Control, 2017, 23(19): 3128-3146.
29. Ping Xiang, Liangjiu Jia, Ke Ke, Yiyi Chen, Hanbin Ge. Ductile cracking simulation of uncracked high strength steel using an energy approach. Journal of Constructional Steel Research, 2017, 138: 117-130.
30. Akira Nishitani, Ping Xiang, Shohei Marutani, Tomohiko Hatada, Ryuta Katamura. New directions of health monitoring for building structures. Advances in Science and Technology, 2017, 101: 15-19.
31. Ping Xiang, Liangjiu Jia, Mingzhe Shi, Minger Wu. Ultra-low cycle fatigue life of aluminum alloy and its prediction using monotonic tension test results. Engineering Fracture Mechanics, 2017, 186(12): 449-465.
32. Ping Xiang, Akira Nishitani, Shohei Marutani, Kenzo Kodera, Tomohiko Hatada, Ryuta Katamura, Kiyoshi Kanekawa, Takashi Tanii. Identification of yield drift deformations and evaluation of the degree of damage through the direct sensing of drift displacements. Earthquake Engineering & Structural Dynamics, 2016, 45(13): 2085-2102.
33. Ping Xiang, Hanbin Ge, Liang-Jiu Jia. Advancement and applications of Japanese high performance steel in structural engineering. Advanced Steel Construction, 2016, 12(3): 245-262.
34. Ping Xiang, Akira Nishitani. Optimum design and application of non-traditional tuned mass damper toward seismic response control with experimental test verification. Earthquake Engineering & Structural Dynamics, 2015, 44(13): 2199-2220.
35. Ping Xiang, Akira Nishitani. Optimum design of tuned mass damper floor system integrated into bending-shear type building based on H-infinity, H-2, and stability maximization criteria. Structural Control and Health Monitoring, 2015, 22(6): 919-938.
36. Ping Xiang, Minger Wu, Ruiquan Zhou. Dynamic analysis of deployable structures using independent displacement modes based on Moore-Penrose generalized inverse matrix. Structural Engineering and Mechanics, 2015, 54(6): 1153-1174.
37. Akira Nishitani, Chisa Matsui, Yushiro Hara, Ping Xiang, Yoshihiro Nitta, Tomohiko Hatada, Ryota Katamura, Iwao Matsuya, Takashi Tanii. Drift displacement data based estimation of cumulative plastic deformation ratios for buildings. Smart Structures and Systems, 2015, 15(3): 881-896.
38. Ping Xiang, Akira Nishitani. Seismic vibration control of building structures with multiple TMD floors integrated. Earthquake Engineering & Structural Dynamics, 2014, 43(6):909-925.
39. Ping Xiang, Akira Nishitani. Optimum design for more effective tuned mass damper system and its application to base-isolated buildings. Structural Control and Health Monitoring, 2014, 21(1):98-114.
40. 吴迪, 项平, 吴明儿. 肋网式可展开抛物面天线的网面整体成形方法. 载人航天, 2023, 29(01): 1-7.
41. 孙祚帅, 贾良玖, 张宏泰, 万佳, 项平. 单层楼阁式木架动力与耗能性能试验研究, 工程科学与技术, 2023, 55(5)：23-30. (EI)
42. 项平, 涂世文, 宋冠卿. 旗帜形滞回模型等效阻尼比数值研究. 土木工程学报, 2022, 55(S1): 139-144.
43. 吴明儿, 张晗, 牛超哲, 项平, 吴迪, 闫中曦. 0.5 m口径缠绕肋可展天线反射面型面精度分析与试验研究. 载人航天, 2021，27(2): 207-214.
44. 项平, 丁潇, 吴明儿, 从强, 邱慧, 林秋红. 大型平面薄膜天线找形及张拉成型数值分析. 机械工程学报, 2020, 56(5): 141-149. (EI)
45. 沈银祥, 项平, 吴明儿, 商红军. 滚卷式太阳毯结构张力保持系统与动力特性研究. 载人航天, 2020，26(1): 34-40.
46. 李旺, 项平, 贾良玖, 吴明儿. 分层摇摆式连接减震结构体系分析研究. 地震工程与工程振动, 2018, 38(4): 100-104.
47. Ping Xiang, Akira Nishitani. Fundamental study on control effect of TMD floor system under seismic excitation. Journal of Structural and Construction Engineering, Architectural Institute of Japan, 2013, 78(694): 2093-2101. (EI)
48. 吴明儿, 项平. 含刚性体可展开结构的展开过程动力学分析方法. 计算力学学报, 2011, 28(5): 653-657. (EI)
49. 吴明儿, 项平. 含刚性体可展开结构的准静态展开分析方法. 力学季刊, 2009, 30(4): 555-561.