Experience

中国第一汽车集团有限公司

• China
• Motor Vehicle Manufacturing
• 1 - 100 Employee

• Automated driving software development manager

  • Sep 2016 - Present

  Job description: Mainly responsible for L4 level automatic driving system planning and decision-making function development. Lead the team as a technical leader in completing the needs analysis, plan formulation, software development, simulation validation and real vehicle integration testing. Developed FAW's first L4 level automatic driving multifunctional vending car. Represented FAW participated in the automatic driving technology challenge (WIC, i-vista, northern ice and snow challenge… Show more Job description: Mainly responsible for L4 level automatic driving system planning and decision-making function development. Lead the team as a technical leader in completing the needs analysis, plan formulation, software development, simulation validation and real vehicle integration testing. Developed FAW's first L4 level automatic driving multifunctional vending car. Represented FAW participated in the automatic driving technology challenge (WIC, i-vista, northern ice and snow challenge, etc.) and achieved excellent results. Show less Job description: Mainly responsible for L4 level automatic driving system planning and decision-making function development. Lead the team as a technical leader in completing the needs analysis, plan formulation, software development, simulation validation and real vehicle integration testing. Developed FAW's first L4 level automatic driving multifunctional vending car. Represented FAW participated in the automatic driving technology challenge (WIC, i-vista, northern ice and snow challenge… Show more Job description: Mainly responsible for L4 level automatic driving system planning and decision-making function development. Lead the team as a technical leader in completing the needs analysis, plan formulation, software development, simulation validation and real vehicle integration testing. Developed FAW's first L4 level automatic driving multifunctional vending car. Represented FAW participated in the automatic driving technology challenge (WIC, i-vista, northern ice and snow challenge, etc.) and achieved excellent results. Show less



NEUSOFT

• shenyang

• Senior image processing algorithm engineer

  • May 2012 - Aug 2016

  Job description: I am mainly engaged in the field of artificial intelligence and ADAS, including algorithm research in the early stage of the project, formulation of design scheme, programming and testing. I have extensive research in image processing, target recognition and tracking, especially in face detection, machine learning, HMM and so on. Job description: I am mainly engaged in the field of artificial intelligence and ADAS, including algorithm research in the early stage of the project, formulation of design scheme, programming and testing. I have extensive research in image processing, target recognition and tracking, especially in face detection, machine learning, HMM and so on.



Shanghai Advanced Research Institute of Chinese Academy of Sciences

• shanghai

• High performance computing engineer

  • Apr 2011 - Apr 2012

  Job description: Responsible for algorithm research and programming of high-performance computing. Project introduction:  Development of numerical solution library on heterogeneous multi-core computing platform of large sparse matrix "National Natural Science Foundation Project": Responsible for the development of numerical solution library, Multi-core heterogeneous CPU / GPU hybrid platform and completed function development and testing.  Real time panoramic vision algorithm based… Show more Job description: Responsible for algorithm research and programming of high-performance computing. Project introduction:  Development of numerical solution library on heterogeneous multi-core computing platform of large sparse matrix "National Natural Science Foundation Project": Responsible for the development of numerical solution library, Multi-core heterogeneous CPU / GPU hybrid platform and completed function development and testing.  Real time panoramic vision algorithm based on GPU acceleration: The improvement of panoramic roaming algorithm is completed, and the panorama generated by six cameras is improved to four cameras, which saves the hardware cost. Real time processing of large-resolution color images based on GPU acceleration technology improves the application scope and effect of the algorithm Show less Job description: Responsible for algorithm research and programming of high-performance computing. Project introduction:  Development of numerical solution library on heterogeneous multi-core computing platform of large sparse matrix "National Natural Science Foundation Project": Responsible for the development of numerical solution library, Multi-core heterogeneous CPU / GPU hybrid platform and completed function development and testing.  Real time panoramic vision algorithm based… Show more Job description: Responsible for algorithm research and programming of high-performance computing. Project introduction:  Development of numerical solution library on heterogeneous multi-core computing platform of large sparse matrix "National Natural Science Foundation Project": Responsible for the development of numerical solution library, Multi-core heterogeneous CPU / GPU hybrid platform and completed function development and testing.  Real time panoramic vision algorithm based on GPU acceleration: The improvement of panoramic roaming algorithm is completed, and the panorama generated by six cameras is improved to four cameras, which saves the hardware cost. Real time processing of large-resolution color images based on GPU acceleration technology improves the application scope and effect of the algorithm Show less



The 53rd Research Institute of CETC

• jinzhou

• Image processing algorithm engineer

  • Jul 2009 - Mar 2011

  Project introduction:  Roaming system of panoramic image: The individual images of each angle are obtained by six sensors and spliced into a 360 degree panoramic image by projection algorithm. Complete the research of early algorithms, programming, optimization and transplantation of embedded platform and product testing.  Distortion correction of large field camera: Complete the distortion correction of infrared wide-angle lens. Project introduction:  Roaming system of panoramic image: The individual images of each angle are obtained by six sensors and spliced into a 360 degree panoramic image by projection algorithm. Complete the research of early algorithms, programming, optimization and transplantation of embedded platform and product testing.  Distortion correction of large field camera: Complete the distortion correction of infrared wide-angle lens.