撒国栋,博士,浙江大学宁波科创中心副教授,浙江大学机械工程学院副教授,隶属于谭建荣院士、刘振宇教授研究团队,入选宁波市领军拔尖人才,研究方向为产品智能化设计、数字孪生及人工智能。近5年,以负责人承担/完成了国家自然学科基金青年基金、国家重点研发计划子课题、浙江省自然科学基金、宁波市重点研发计划课题、宁波市自然科学基金等项目,参与了国家自然科学基金重大项目、重点项目、联合基金集成项目、浙江省重点研发计划等国家级、省部级重大科研项目,主持了齐重数控、兰石集团等重要企业委托的多项横向科研项目,在精密数控机床加工精度预测补偿、相控阵雷达公差优化设计等方面取得重要创新与突破。
近5年作为第一作者/通讯作者在ASME Journal of Mechanical Design、Journal of Manufacturing Systems、Pattern Recognition、IEEE Transactions on Industrial Informatics、IEEE/ASME Transactions on Mechatronics、Energy、IEEE Transactions on Instrumentation and Measurement、Materials & Design等权威期刊发表学术论文20余篇,获授权发明专利20余项。成果应用于齐重数控重型立式车床、浙江杭机精密数控磨床、方太厨电产品、中电集团相控阵雷达等复杂机电装备,支撑了系列国产装备的自主设计。获2024年度中国轻工业联合会科技进步一等奖(第二完成人)、2021年度中国图学学会优秀博士学位论文奖。
课题组科研氛围浓厚,师生关系融洽,多名博士研究生、硕士研究生获得浙江大学优秀博士生科研项目、中国科协青年人才托举工程博士生专项计划、国家奖学金等重要奖励。
科研情况
1. 项目研究
纵向科研项目:
1) 国家自然科学基金青年基金项目:复杂机电装备精度与性能的隐关联分析与公差优化方法,52105279,30万,2022.1-2024.12,主持
2) 浙江省自然科学基金探索项目:皮肤张力不确定性分析及其在皮肤扩张机理研究中的应用,LQ22E050015,10万,2022.1-2024.12,主持
3) 宁波市重点研发计划:面向健康生活的智慧家居服务平台关键技术研究与应用,2023Z134,课题经费60万,2022.7-2025.6,课题负责人
4) 宁波市自然科学基金项目:基于性能与精度隐关联分析的复杂机电装备公差优化设计,2021J163,5万,2021.5-2023.5,主持
5) 国家重点研发计划:产品数字孪生体开放式交互设计和仿真技术,2024YFB3309500,子课题经费40万元,2024.12-2027.11,子课题负责人
6) 国家自然科学基金集成项目:重复使用航天运载器非火工分离机构系统正向设计基础研究,U24B6005,子课题经费100万元,2025.1-2028.12,子课题负责人
7) 国家自然科学基金集成项目:面向未来工厂开放环境复杂任务求解的智能计算关键技术与系统,U22A6001,2023.1-2026.12,参与
8) 国家自然科学基金面上项目:面向复杂装备运行状态预测的网络表示学习方法研究,62376043,2024.1-2027.12,参与
9) 浙江省重点研发计划:城轨数字化关键技术研究与系统开发及示范应用,2022C01064,2021.8-2024.7,参与
10) 浙江省重点研发计划:城轨数字化关键技术研究与系统开发及示范应用,2022C01064,2021.8-2024.7,参与
横向科研项目:
1) 锻压机数字孪生系统开发,横向项目,兰州理工大学,40万,2024.4-2026.4,主持
2) 车间数字化生产关键技术研究,齐齐哈尔金车工业有限责任公司,5万,2024.6-2024.12,主持
3) 重型立式数控车床工作台热误差在线预测及补偿技术,齐重数控装备股份有限公司,25万,2024.9-2025.7,主持
4) 厨电产品数字孪生系统开发,宁波方太厨具有限公司,50万,2022.7-2023.6,参与
5) 面向厨房的结构光测量设备研发,宁波方太厨具有限公司,50万,2022.7-2023.6,参与
6) 基于结构光的厨房建模系统开发,宁波方太厨具有限公司,50万,2022.7-2023.6,参与
2. 论文、著作
[1] Guodong Sa, Zhenyu Liu*, Chan Qiu, Xiang Peng, Jianrong Tan. Novel Performance-Oriented Tolerance Design Method Based on Locally Inferred Sensitivity Analysis and Improved Polynomial Chaos Expansion[J]. ASME Journal of Mechanical Design. 2021, 143(2): 022001.
[2] Guodong Sa#, Xingyao Yin#, Hao Wu#, Zhenyu Liu*, Guoliang Sa*, Jianrong Tan. Real-Time Suture Reconstruction in Rat Skin Stretching Experiments with Multiocular Stereo Vision Measurement System[J]. IEEE Transactions on Instrumentation and Measurement, 2022, 71: 5025014.
[3] Xiaoyi Wu#, Heng Chen#, Tianhao Luo#, Zhuo Wang, Zequan Wei, Lin Li, Xuewen Yang*, Guodong Sa*, Guoliang Sa*. Designing a dual-function skin-stretching device with 3D printing for mechanotransduction analysis and scar prevention: a preliminary study[J]. Materials & Design, 2022, 220: 110862.
[4] Zhenyu Liu, Hanchao Xu, Guodong Sa*, Yufeng Lyu, Jianrong Tan. A comparison of sensitivity indices for tolerance design of a transmission mechanism[J]. Journal of Zhejiang University-SCIENCE A, 2022, 23(7): 527-542.
[5] Zhenyu Liu, Yufeng Lvu, Guodong Sa*, Jianrong Tan. Reliability measure approach considering mixture uncertainties under insufficient input data[J]. Journal of Zhejiang University-SCIENCE A, 2023, 24(2): 146-161.
[6] 汤鹏, 撒国栋*, 刘振宇, 谭建荣. 锻造液压机数字孪生系统设计[J]. 图学学报, 2023, 44(3): 609-615.
[7] Guodong Sa, Haodong Bai, Zhenyu Liu*, Xiaojian Liu, Jianrong Tan. A tolerance analysis method based on assembly deformation simulation with stable contact. Robotic Intelligence and Automation. 2024, 44(1): 1-18.
[8] Zhenyu Liu, Haoyang Mao, Guodong Sa*, Hui Liu, Jianrong Tan. Dynamic job-shop scheduling using graph reinforcement learning with auxiliary strategy. Journal of Manufacturing Systems. 2024, 73:1-18.
[9] Zhenyu Liu, Zhinan Li, Guodong Sa*, Hui Liu, Jianrong Tan. Selection of the Optimal Scheme for the Conceptual Design of Complex Products Considering Multi-source Uncertainties. Journal of Mechanical Science and Technology, 2024, 38(9): 4261-4276.
[10] Guodong Sa, Yipeng Chao, Shuo Li, Dandan Liu*, Zonghua Wang*. A globally consistent merging method for house point clouds based on artificially enhanced features. Electronics. 2024, 13(16): 1-23
[11] Guodong Sa, Zhengyang Jiang, Zhenyu Liu*, Jiacheng Sun, Chan Qiu, Liang He, Jianrong Tan. An integrated optimization method for measurement points layout and error modeling for digital twin of CNC machine tools. Precision Engineering. 2024, 90:1-11.
[12] Guodong Sa, Jiacheng Sun, Mingjie Hou, Zhengyang Jiang, Zhenyu Liu*, Haoyang Mao, Kun Huang, Liang He, Jianrong Tan. A digital twin synchronous evolution method of CNC machine tools associated with dynamic and static errors. International Journal of Advanced Manufacturing Technology. 2024, 134: 2753–2763.
[13] Guodong Sa, Chenhui Wu, Zhenyu Liu, Daxin Liu*, Bin Li, Yougen Huang, Jianrong Tan. A visual digital twin framework based on residual-based Fourier Neural Operator online simulation method for the smart kitchen. Journal of Simulation. 2024, 1-21.
[14] Zhenyu Liu, Mingjie Hou, Guodong Sa*, Yueyang Wang, Xiaopeng Xin, Jianrong Tan. Gas Turbine Multi-Working Conditions Identification and Performance Prediction Based on Deep Learning and Knowledge. Energy. 2024, 308: 133011.
[15] Mingjie Hou, Zhenyu Liu, Guodong Sa*, Yueyang Wang, Jiacheng Sun, Zhinan Li, Jianrong Tan. Parallel Multi-Scale Dynamic Graph Neural Network for Multivariate Time Series Forecasting. Pattern Recognition. DOI:10.1016/j.patcog.2024.111037
[16] Zhinan Li, Guodong Sa*, Zhenyu Liu, Bin Li, Jianrong Tan. Top-Down Hierarchical Construction and Application of a Domain Design Knowledge Graph based on Multimodal Design Information. Journal of Mechanical Design. 2024. DOI:10.1115/1.4066680
[17] Qi Gao, Zhenyu Liu, Guodong Sa*, Jianrong Tan. ROM-Based Real-time Analysis of Electromagnetic Performance for APAA in a Digital Twin System. IEEE Transactions on Industrial Informatics. 2024
[18] Guodong Sa, Zhengyang Jiang, Jiacheng Sun, Chan Qiu, Zhenyu Liu*, Jianrong Tan. Hierarchical Explicit-Implicit Combined Sensing-Based Real-Time Monitoring Method for the Service Performance of Complex Equipment. Journal of Intelligent Manufacturing and Special Equipment.
[19] Zhenyu Liu, Peng Tang, Guodong Sa*, Junkai Ge, Jianrong Tan. Synthesize-Then-Evaluate Based Optimal Exposures Selection for High Dynamic Range Fringe Projection Profilometry. IEEE/ASME Transactions on Mechatronics. 2024
[20] Guodong Sa, Yuxin Han, Chan Qiu*, Zhenyu Liu, Jianrong Tan. Assembly Simulation Method Based on Joint Optimization of Initial Pose and Contact Deformation. Robotic Intelligence and Automation. 2024
[21] Peng Tang, Guodong Sa*, Junkai Ge, Zhenyu Liu, Jianrong Tan. Projection Pattern Pre-correction Method Based on Projection Error Decoupling in Fringe Projection Profilometry. IEEE Transactions on Instrumentation and Measurement. 2025
3. 成果奖项
1) 中国轻工业联合会科学技术进步奖一等奖, 2025 (诸永定; 撒国栋; 徐鑫; 杨均; 刘振宇; 黄友根; 姚青; 许艳顺; 王帅东; 陈浩辉)
2) 2021年中国图学学会优秀博士学位论文奖
4.发明专利
[1] 撒国栋,刘振宇,撒国良,谭建荣. 一种基于三维打印的动物皮肤扩张装置. CN202010863388.3 申请日2020.08.25,授权日2021.11.16
[2] 刘振宇,撒国栋,裘辿,谭建荣. 基于电性能幅值加权的阵元安装位置的测量方法. CN202010015525.8申请日2020.01.07,授权日2021.12.07
[3] 刘振宇,撒国栋,裘辿,谭建荣. 基于分层共形曲面的有源相控阵雷达安装位置测量方法. CN202010015529.6申请日2020.01.07,授权日2021.12.03
[4] 撒国栋,刘振宇,徐汉超,周川源,谭建荣. 一种星载相控阵天线同步展开机构. CN202011362663.X 申请日2020.11.27,授权日2021.11.30
[5] 白昊东,撒国栋,刘振宇,谭建荣, 一种相机位姿可调的四目立体视觉测量装置. CN202110658951.8 申请日2021.06.15,授权日2022.05.03
[6] 刘振宇,侯明杰,撒国栋,李斌,黄友根,谭建荣. 知识和数据复合驱动的装备多工况识别与性能预测方法. 202311648023.9申请日 2023.12.05,授权日2024.02.20浙大+方太(预审)
[7] 撒国栋,孙嘉诚,蒋正扬,刘振宇,毛皓阳,谭建荣. 关联动静态误差的数控机床数字孪生同步演化控制方法. 202410764447.X 申请日 2024.06.14 授权公告日: 2024年08月16日
[8] 撒国栋,撒国良,吴昊,殷兴耀,刘振宇. 一种基于多目视觉的运动物体图像特征点识别与重建方法. CN202111210015.7 申请日2021.10.18 授权公告日: 2024年09月26日浙大宁波理工学院
[9] 撒国栋,李志男,孙嘉诚,刘振宇,侯明杰,谭建荣. 基于大语言模型知识强化的机床加工工艺孪生决策方法. CN202411215150.4 申请日期:2024-09-02
