中文

Haijun Wu's Faculty Page

projects teaching @ SJTU

Research projects

  • 2019.01—2022.12 SZ DJI Technology CO., LTD. “Research on wind noise simulation test of motion camera recording device” (PI)
  • 2020.08—2021.12 SZ ANGEL CO., LTD. “Source tracing of vibration and noise of water purifier and noise reduction design” (PI)
  • 2019.01—2022.12 Special subproject for civil aircraft of Ministry of industry and information technology“research on integrated simulation system of cabin environmental control noise identification, prediction and evaluation” (PI)
  • 2018.08—2022.07 Special subproject of Ministry of industry and information technology for civil aircraft “Research on fast noise prediction method and sound source test and analysis technology” (PI)
  • 2019.01—2022.12, A near-field acoustic holography based on the mapping relationship of the patterns between the vibration source and sound field, National Natural Science Foundation of China,(PI)
  • 2019.01—2022.12, Theory and method of sound source inversion and radiation sound field reconstruction of broadband fan noise in turbofan engines, National Natural Science Foundation of China, Principal investigator.
  • 2019.03—2020.12 Haiji Shengyuan Information Technology Co., Ltd., “Research on vibration and noise simulation analysis technology of marine machinery” (PI)
  • 2017.10—2018.10 Open project of Key Laboratory of aerodynamic noise control, “Research on near-field acoustic holography test technology for rotor noise identification”(PI)
  • 2017.08—2018.08 CSIC 708 Research Institute “Simulation Research of *** test technology”,(PI)
  • 2017.01—2019.12 Cross subject of medical engineering, “research on the diagnosis and treatment of cochlear implant surgery based on computer 3d image reconstruction technology”, (Co-PI)
  • 2016.09—2020.12 Ministry of industry and information technology, “research on vibration and noise control technology of marine low speed diesel engine” (sub-project leader)
  • 2016.10—2020.12 Pre-research project of the 13th five-year plan, “design guide for *** vibration and noise control,” (sub-project leader)
  • 2016.01—2017.12 Autonomous project of state key laboratory of mechanical system and vibration, “near field acoustic holography method and experimental research based on modal mapping,” (PI)
  • 2015.01—2016.11Chinese Academy of Sciences, Center for space application engineering and technology, “Acoustic solid coupling effect analysis of double-layer structure in suspension experiment of high microgravity scientific experiment cabinet” (PI)
  • 2015.01—2017.12, Study on high precision and fast computational method for large scale structural-acoustic coupling problems, National Natural Science Foundation of China, (PI)
  • 2015.01—2015.06 XX pre-research project, “fast prediction method of heavy gas turbine emission noise” (PI)
  • 2015.07—2016.07 The eighth special support project of China Postdoctoral Science Foundation,(PI) 
  • 2014.04—2015.09 The 55th batch of general funded projects of China Postdoctoral Science Foundation,(PI)

UG-Thesis projects

  • Class 2019, SAIC Volkswagen Co., Ltd., realization of vehicle noise elimination function
    • Topic 1: Analysis of engine noise and secondary sound source characteristics
    • Topic 2: Research on the algorithm of active elimination of interior noise
    • Topic 3: Research on background noise elimination algorithm based on deep learning

UG PRP

  • Phase 33-t020prp33055: 3D cochlear computer image reconstruction based on medical image
  • Phase 33-t020prp33045: speech enhancement based on generalized sidelobe cancellation and convolutional neural network
  • Phase 30-t020prp30075: development of 3D acoustic holographic imaging device and its visualization software (Excellent project)
  • 2017 summer project-t020srip07012: Construction and maintenance of multi node computing server

UG-Innovation Projects

  • Issue 18: Interactive software development based on enhanced intelligent speech recognition
  • Issue 20: Design of portable acoustic acquisition and imaging system