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个人信息
姓名: 王诗光 籍贯: 山东菏泽
职称: 助理教授/师资博士后 部门: 韧性城市规划工程研究院
职务: 韧性城市规划工程研究院科研教师 电子邮箱: wangshiguang@xauat.edu.cn
学 科: 土木工程 研究方向: 环境振动影响评估
教育背景
2015.09—2022.11 香港理工大学土木及环境工程学系 获博士学位
2011.09—2015.08 山东建筑大学土木工程系 获学士学位
工作经历
2022.12—至今 西安建筑科技大学交叉创新研究院 助理教授
主讲课程
学术成果
1.Wang, S., & Zhu, S. (2023). Simplified Analysis Approach for Predicting Ground-borne Vibrations Induced by Impact Driving of Concrete Piles. ASCE Journal of Geotechnical and Geoenvironmental Engineering, 149(10), 04023085.
2. Meng, Q., Wang, S., & Zhu, S. (2023). Semi-supervised deep learning for recognizing construction activity types from vibration monitoring data. Automation in Construction, 152, 104910.
3. Wang, S., Zhu, Z. & Zhu, S. (2023). Monitoring and Assessment of Vibration Impact on Ultraprecision Equipment in a Hospital throughout a Whole Construction Period. ASCE Journal of Performance of Constructed Facilities, 37(3), 04023021.
4. Wang, S., & Zhu, S. (2022). Vibration impact of rock excavation on nearby sensitive buildings: an assessment framework. Soil Dynamics and Earthquake Engineering, 163, 107508.
5. Wang, S., & Zhu, S. (2022). Global vibration intensity assessment based on vibration source localization on construction sites: application to vibratory sheet piling. Applied Sciences, 12(4), 1946.
6. Wang, S., Zhu, S., & Yuen, P. L. (2021). Assessment of ground-borne vibration impact on nearby underground facilities induced by ground surface excavation. ASCE Journal of Construction Engineering and Management, 147(7), 04021071.
7. Wang, S., & Zhu, S. (2021). Impact source localization and vibration intensity prediction on construction sites. Measurement, 175, 109148.
所获荣誉
项目经历
1.《国家自然科学基金项目:黄土地区施工冲击荷载致环境振动及超材料隔振(52308329),主持》;
2.《Real time high-sensitivity vibration monitoring at Queen Elizabeth Hospital, Bouygues Travaux Publics 香港有限公司资助,参与》;
3.《Enhancement works for campus traffic and ancillary facilities in Science Park Lead Architectural Consultancy Services (LAC) – Traffic induced vibration assessment for Hong Kong Science Park, Hsin Yieh Architects & Associates 香港有限公司资助, 参与》;
4.《Construction induced vibration assessment for Hong Kong Science Park Extension Project, Ronald Lu & Partner 香港有限公司资助,参与》;
5.《Coupled dynamics of floating offshore wind turbines in complex marine environments, 香港研究资助局资助, 参与》;
6.《Monitoring construction induced vibration for the project of extension of operating theatre block for Tuen Mun Hospital, 香港骑士建筑有限公司资助, 参与》;
7.《Vibration Assessment and Mitigation Measures for the Redevelopment Project of New Block (Phase I) in Queen Mary Hospital, Hong Kong West Cluster, 香港医管局资助, 参与》;
8.《Study on impact of construction induced vibration on buried pipework. 香港医管局资助,参与》;
9.《Vibration assessment of the redevelopment of Queen Mary Hospital Phase I. 香港医管局资助, 参与》;
10.《Monitoring construction induced vibration in BTS extension project. 香港骑士建筑有限公司资助, 参与》。
社会兼职

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个人信息
姓名 王诗光
籍贯 山东菏泽
职称 助理教授/师资博士后
学科 土木工程
职务 韧性城市规划工程研究院科研教师
部门 韧性城市规划工程研究院
电子邮箱 wangshiguang@xauat.edu.cn
研究方向 环境振动影响评估
教育背景
2015.09—2022.11 香港理工大学土木及环境工程学系 获博士学位
2011.09—2015.08 山东建筑大学土木工程系 获学士学位
工作经历
2022.12—至今 西安建筑科技大学交叉创新研究院 助理教授
主讲课程
学术成果
1.Wang, S., & Zhu, S. (2023). Simplified Analysis Approach for Predicting Ground-borne Vibrations Induced by Impact Driving of Concrete Piles. ASCE Journal of Geotechnical and Geoenvironmental Engineering, 149(10), 04023085.
2. Meng, Q., Wang, S., & Zhu, S. (2023). Semi-supervised deep learning for recognizing construction activity types from vibration monitoring data. Automation in Construction, 152, 104910.
3. Wang, S., Zhu, Z. & Zhu, S. (2023). Monitoring and Assessment of Vibration Impact on Ultraprecision Equipment in a Hospital throughout a Whole Construction Period. ASCE Journal of Performance of Constructed Facilities, 37(3), 04023021.
4. Wang, S., & Zhu, S. (2022). Vibration impact of rock excavation on nearby sensitive buildings: an assessment framework. Soil Dynamics and Earthquake Engineering, 163, 107508.
5. Wang, S., & Zhu, S. (2022). Global vibration intensity assessment based on vibration source localization on construction sites: application to vibratory sheet piling. Applied Sciences, 12(4), 1946.
6. Wang, S., Zhu, S., & Yuen, P. L. (2021). Assessment of ground-borne vibration impact on nearby underground facilities induced by ground surface excavation. ASCE Journal of Construction Engineering and Management, 147(7), 04021071.
7. Wang, S., & Zhu, S. (2021). Impact source localization and vibration intensity prediction on construction sites. Measurement, 175, 109148.
所获荣誉
项目经历
1.《国家自然科学基金项目:黄土地区施工冲击荷载致环境振动及超材料隔振(52308329),主持》;
2.《Real time high-sensitivity vibration monitoring at Queen Elizabeth Hospital, Bouygues Travaux Publics 香港有限公司资助,参与》;
3.《Enhancement works for campus traffic and ancillary facilities in Science Park Lead Architectural Consultancy Services (LAC) – Traffic induced vibration assessment for Hong Kong Science Park, Hsin Yieh Architects & Associates 香港有限公司资助, 参与》;
4.《Construction induced vibration assessment for Hong Kong Science Park Extension Project, Ronald Lu & Partner 香港有限公司资助,参与》;
5.《Coupled dynamics of floating offshore wind turbines in complex marine environments, 香港研究资助局资助, 参与》;
6.《Monitoring construction induced vibration for the project of extension of operating theatre block for Tuen Mun Hospital, 香港骑士建筑有限公司资助, 参与》;
7.《Vibration Assessment and Mitigation Measures for the Redevelopment Project of New Block (Phase I) in Queen Mary Hospital, Hong Kong West Cluster, 香港医管局资助, 参与》;
8.《Study on impact of construction induced vibration on buried pipework. 香港医管局资助,参与》;
9.《Vibration assessment of the redevelopment of Queen Mary Hospital Phase I. 香港医管局资助, 参与》;
10.《Monitoring construction induced vibration in BTS extension project. 香港骑士建筑有限公司资助, 参与》。
社会兼职

上一条:乔宇豪
下一条:罗峥

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电话:029-82202096
邮箱:IIIR@xauat.edu.cn