Lecturer at the School of Architecture and Design, Nanchang University, and doctoral degree in Architectural Technology Science, South China University of Technology. Professional member of Architectural Physics Branch of China Architectural Society, and professional member of Architectural Acoustics Branch of China Acoustic Society. He presided over 4 provincial and ministerial projects such as the Humanities and Social Sciences Research Project of the Ministry of Education and the Natural Science Foundation of Jiangxi Province. Published more than 20 SCI, SSCI, A&HCI, EI and domestic core papers, of which the first (correspondence) author published 16 papers. Authorize 2 national invention patents and 2 utility model patents.

• 201909-202212 South China University of Technology doctoral students
• 201209-201706 Jiangxi Normal University undergraduate

• [1] 2023.01-so far full-time teachers Architecture and Design College，Nanchang University
• [2] 2023.06-so far Secretary of the Second Party Branch for Academic Postgraduate Students Architecture and Design College，Nanchang University
• [3] 2025.05-2026.05 Deputy Director (temporary position) Nanchang University Asset Management Office

It is mainly engaged in research on architectural acoustics, environmental acoustics and bioacoustics, including acoustic measurement technology, noise impact assessment, acoustic heritage, bioacoustics, sound, sound, and fragrance.

(1) Hosted, Nanchang University's 2023 undergraduate scientific research training project: research on key technologies for on-site detection of sound insulation defects in building components using near-field acoustic holography. 

(2)  Hosted, the project of Nanchang University's 2025 College Student Innovation Training Program (2025 CX120): Rapid measurement system and application research on sound insulation of complex components based on near-field acoustic holography. 

(3)  Hosted, Nanchang University's 2025 undergraduate scientific research training project: on-site measurement mechanism and optimization research on sound insulation of assembled components based on near-field acoustic holography. 

(4)  Hosted, Nanchang University's 2025 College Student Research Training Project: Research on Digital Analysis, Reconstruction and Virtual Display of the Sound Scenery of Ancient Ming and Qing Dynasties in Northeast Jiangxi.

(1)I., Acoustic adaptation mechanism of a traditional ancient temple theatre in northeastern Jiangxi. npj Heritage Science, 2025, 13, 446. (SCI, A&HCI, District 2, Chinese Academy of Sciences) 

(2)1. Acoustic characteristics and influencing mechanisms of the traditional ancient temple theatre in northeastern Jiangxi. Heritage. 2025; 8(12):515. (ESCI, Chinese Academy of Sciences District 3) 

(3)Effect of systematic errors on building component sound insulation measurements using near-field acoustic hologram. Buildings. 2025, 15, 2619. (SCI, Chinese Academy of Sciences District 3) 

(4)The sound quality characteristics of the Gan Opera ancestral temple theater based on impulse response: a case study of Zhaomutang in Leping, Jiangxi province. Buildings, 2025, 15, 986. (SCI, Chinese Academy of Sciences District 3) 

(5)First, the development and application of a near-field acoustic holographic sound insulation measurement system based on LabVIEW. Experimental Technology and Management, 2025, 42(11), 187 -193. (Peking University Core) 

(6)Communication, near field acoustic holographic building component sound insulation defect detection system design. Laboratory Research and Exploration, 2025, 44 (12):29-34+68. (Peking University Core) 

(7)The first is the actual measurement of indoor and outdoor traffic noise distribution characteristics of residential communities along the expressway. Architectural Science, 2025, 41(02): 290-296. (Peking University Core) 

(8)Study on the impact of communication and national highway traffic noise on rural residential buildings along the route-taking G320 Xishan Town Section as an example. Architectural Science, 2025, 41(12): 239-245. (Peking University Core) 

(9)Book 2 (Instructor 1), Sound insulation measurement of building components combining diffuse acoustic field excitation and near-field acoustic holographic reconstruction. Chinese Journal of Acoustics,2024, 43(02): 248-273.（CSCD）

 (10)The second work (the first work by the mentor), a method for measuring sound insulation of building components based on diffusion field excitation and near-field acoustic holographic reconstruction. Acta Acoustica, 2023, 48(05): 1021-1035.（EI）

 (11)The first work is a study on sound quality design of Lianyungang Grand Theater. Noise and Vibration Control, 2023, 43(04): 222-227+234.（CSCD） 

(12)First, Research on the near-field acoustic holographic method for in-situ measurement of sound insulation of building components and its application. Architectural Science, 2023, 39(06): 32-39. (Peking University Core)

 (13)First, Selection of reconstruction parameters for near-field acoustic holographic sound insulation measurement technology. Journal of South China University of Technology (Natural Science Edition), 2022, 50(05): 109-117.（EI） 

(14)Third, Developing diversified models for predicting the level of dissatisfaction due to a specific metro noise masked with four specific water sounds. Applied Acoustics, 2022, 200: 109082. (SCI, District 2, Chinese Academy of Sciences) 

(15)First, Measurement of airborne sound insulation of building components by near-field acoustic hologram. In Proceedings of 2022 International Congress on Noise Control Engineering, INTER-NOISE 2022, UK’s Institute of Acoustics.（EI） 

(16)The first is the actual measurement and analysis of indoor and outdoor noise in residential areas at the intersection of main roads. Noise and Vibration Control, 2021, 41(05): 219-224.（CSCD）

 (17)Third, the multi-dimensional sensing mechanism of noise in buildings along the subway line. Applied Acoustics, 2024, 43 (02):339-349. (Peking University Core)

 (18)1. Impact prediction and noise prevention analysis of composite noise in residential community based on Cadna/A software. INTER NOISE, 2020.（EI） 

(19)Second Book (Tutor One), Questionnaire survey and analysis on the noise status of graduate dorms in South China University of Technology. INTER NOISE, 2020.（EI）

• [1]A six-microphone three-dimensional sound intensity method sound absorption coefficient measurement system and measurement method, Patent No.: ZL202110946318.9, 2024-07-16.
• [2]A six-microphone three-dimensional sound intensity method sound absorption coefficient measurement system, patent number: ZL202121933704.6, 2022-03-25.
• [3]A sound insulation measurement system and measurement method based on near-field acoustic holography, Patent No.: ZL202110870684.0, 2024-09-10.
• [4]A sound insulation measurement system based on near-field acoustic holography, patent number: ZL202121762143.8, 2022-03-25.