Business Address:轨道交通运载系统全国重点实验室B区B3-203
Status:在岗
Alma Mater:奥克兰大学
School/Department:轨道交通运载系统全国重点实验室
Discipline: Engineering For The Operation of Vehicles
Vehicle Engineering
Transportation Engineering
Other:
PostalAddress:
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Research Focus
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Social Affiliations
长期担任《Journal of Sound and Vibration》、《Mechanical System and Signal Process》、《Applied Acoustics》、《Journal of the Acoustical Society of America》等期刊审稿人。
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Education Experience
2016/1-2016/12南安普顿大学 | 机械工程 | 其它 | other | 于南安普顿大学ISVR(声音与振动研究机构)访学
2014/9-2018/7奥克兰大学 | 机械工程 | 学术博士 | PhD graduate
2011/9-2014/7重庆大学 | 车辆工程 | 全日制学术硕士 | Postgraduate student
2006/9-2010/7四川轻化工大学 | 机械工程 | Bachelor's degree | Undergraduate (bachelor)
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Work Experience
2022/1-2024/9轨道交通与运载系统全国重点实验室 | 西南交通大学 | 助理研究员 | 全职
2024/9-2025/4轨道交通与运载系统全国重点实验室 | 西南交通大学 | 副研究员 | 全职
2018/10-2021/12机械工程学院 | 奥克兰大学 | Research Fellow (博士后研究员) | 全职
- 1.[1] Yang Y, Kingan M. K, Mace B. R., (2024). Prediction of sound transmission through plates using spectral Gaussian basis functions and application to plates with periodic acoustic black holes. Journal of Sound and Vibration, 605: 118952.
- 2.[2] Yang Y, Kingan M. K, Mace B. R., (2024). A deterministic energy method for predicting the response of coupled finite structures. Journal of Sound and Vibration, 585: 118459-118492.
- 3.[3] Yang Y, Kingan M. K., (2024). A hybrid wave and finite element/boundary element method for predicting the vibroacoustic characteristics of finite-width complex structures. Journal of Sound and Vibration, 582: 118402-118420.
- 4.[4] Yang Y, Kingan M. K, Mace B. R., (2022). Analysis of the forced response of coupled panels using a hybrid finite element/wave and finite element method. Journal of Sound and Vibration, 537: 117174-117195.
- 5.[5] Yang, Y., Kingan, M. J. & Mace, B. R., (2024). A hybrid wave finite element/boundary element method for predicting the vibroacoustic characteristics of extruded panels. Journal of Sound and Vibration, 137, 157283.
- 6.[6] Yang, Y., Kingan, M. J. & Mace, B. R., (2022). Analysis of the forced response of coupled panels using a hybrid finite element/wave and finite element method. Journal of Sound and Vibration, 537, 117174.
Team Member
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