song bi feng


http://jszy.nwpu.edu.cn/en/songbifeng

The basic information

song bi feng

School of Aeronautics

Postgraduate

Doctor

Professor

sbf@nwpu.edu.cn

029-88495914

Work Experience

Sep. 1981 – Jun 1985, BS, majored in Aircraft design, Department of Aircraft Engineering, Northwestern Polytechnical University, Xi’an, China

Sep. 1985 – Mar. 1988, MSc, majored in Aircraft design, Department of Aircraft Engineering, Northwestern Polytechnical University, Xi’an, China

Sep. 1994 – Mar 1998, Ph.D, majored in Aircraft design, Department of Aircraft Engineering, Northwestern Polytechnical University, Xi’an, China

Jun.1988 – Dec.1990, Teaching assistant, Department of Aircraft Engineering, Northwestern Polytechnical University, Xi’an, China;

Jan. 1991 – Feb 1993, Lecturer, Department of Aircraft Engineering, Northwestern Polytechnical University, Xi’an, China;

Mar 1993 - Dec. 1998, Associate professor, Department of Aircraft Engineering, Northwestern Polytechnical University, Xi’an, China;

Jan. 1999 –   Professor, Department of Aircraft Engineering, Northwestern Polytechnical University, Xi’an, China;

Jan.1999 – Jun.2003, Associate head of Department of Aircraft Engineering, Northwestern Polytechnical University, Xi’an, China;

Jul.2003 – Oct.2005, Associate Dean of School of Aeronautics, Northwestern Polytechnical University, Xi’an, China;

Nov.2005 –Oct.2014,   Dean of School of Aeronautics, Northwestern Polytechnical University, Xi’an, China. 

Education And Teaching

1.      “Engineering system planning and design” for graduate, 40 hours

2.      “Progress of Reliability analysis and design method” for graduate, 36 hours

3.      “Structure reliability theory and design method” for graduate, 40 hours

4.      “Optimization design of engineering structure” for graduate, 36 hours 

Admission Information

1.      Conceptual design of aircraft;

2.      Aircraft structure design;

3.      Multi-Disciplinary Optimization and Top-Level Decision of aircraft;

4.      High survivability and Reliability, Maintainability and Protective engineering;

5.      Reliability and Maintainability of system/structure/mechanism;

6.      Near Space Vehicle technology;

7.      Micro Air Vehicle technology. 

Awards Information

1.      Reliability, optimization design method research for large complicated structure system.  Prize of Shaanxi Science and Technology. Second Award, Rank 1. Certificate No: 04-2-011-R1. 2005.6

2.      JK863-2007721002. Army progress prize in science and technology. First Award, Rank 1. Certificate No: 2007KP1007-3. 2007.9

3.      Probability calculation method for structure system failure. Excellent doctoral dissertation prize of national education ministry. Rank 1. Certificate No: 2000080. 2000.7

4.      Probability calculation method for structure system failure. Excellent doctoral dissertation prize of Shaanxi province. Rank 1. 2001.3

5.      Static force reliability analysis technology of large thin wall structure. Progress prize of Shaanxi Science and Technology. Second Award. Rank 1. Certificate No: 97-111. 1997.1

6.      Static force reliability analysis technology of large thin wall structure. Progress prize of Shaanxi education committee. Second Award. Rank 1. Certificate No: 96257. 1996.4

7.      Reliability analysis and application of Bayes estimation and minimum sample system. Progress prize of Shaanxi education committee. Third Award. Rank 1. Certificate No: 980208. 1998.5

8.      Reliability, optimization design method of large complicated structure system. Shaanxi Science and Technology Prize for Colleges and universities. First Award. Rank 1. Certificate No: 2004A16. 2004.6

9.      Static force reliability analysis technology of large thin wall structure. Progress prize for science and technology of China Aviation Industry Corporation. First Award. Rank 1. Certificate No: 961173. 1996.11

10.    Static force reliability analysis technology of large thin wall structure. Outstanding achievement prize funded by aviation basic science foundation. First Award. Rank 1. 1995.7

11.    Solving the Combinatorial Explosion Problem When Calculating the Multiple Hit Vulnerability of Aircraft. Ten years’ Excellent dissertation prize of Shaanxi natural science. First Award. Rank 2. Certificate No: 590.00.006. 2008.3

12. Carry forward the three real fine tradition, Aerospace science and technology innovation talents cultivation system. The national teaching achievement prize. Second Award. Rank 1. 2009. The provincial teaching achievement prize. Special Award. Rank 1.

13. DOVE air vehicle, Defense invention prize. Second Award. Rank 1. 

Scientific Research

1.      Bifeng Song, Yongcang Zhang. Computational Method for Failure Probability of Structural System. National Defense Industry Press. 2011.12

2.      Bifeng Song, Shouan Li, Xiaodong Liu, Jianxi Xie. Decision Making Theories and Methods for Conceptual Design and Key technology of Combat Aircraft. National Defense Industry Press. 2010.9

3.      Bifeng Song, Yang Pei, Qing Han, Hongjian Gao. Aircraft Combat Survivability Calculation theory and Methods. National Defense Industry Press. 2007.6

4.      Bifeng Song, Liangxian Gu. Introduction to Aeronautical and Astronautical Technology. National Defense Industry Press. 2006.12

5.      Bifeng Song. Aircraft Reliability Engineering. National Defense Industry Press. 2006.11

6.      Weiji Li, Bifeng Song, Xiasheng Sun, Yong Zhang. Aircraft Structure Optimization Design. National Defense Industry Press. 2005.12

7.      Guangyu Lin, Bifeng Song. The Fundamentals of Aircraft Combat Survivability Analysis and Design. Aviation Industry Press. 1998(Translation)

8.     `s\vl VE`s\vN-US" style='color: rgb(51, 51, 51); line-height: 150%; font-family: "Arial",sans-serif; font-size: 10pt; mso-fareast-font-family: 宋体; mso-font-kerning: 0pt;'>Bifeng Song, Wei Zhang. Synthesis and cell activity of novel galactosylated chitosan as a gene carrier. COLLOIDS AND SURFACES B-BIOINTERFACES. 2009, 70(2)

9.      Yang Pei, Bifeng Song. Tow general methods for calculating the aircraft equivalent singly vulnerable area. JOURNAL OF AIRCAFT. 2006, 43(5)

10.    Yang Pei, Bifeng Song. Aircaft vulnerable-area decomposition method in the overlapping region of components. JOURNAL OF AIRCAFT. 2006, 43(4)

11.      The Vulnerability prediction model and calculating method of large complicated structure system. National Natural Science Foundation of China, 2004.01 

Social Appointments

1.      Executive vice editor in ADVANCES IN AERONAUTICAL SCIENCE AND ENGINEERING Journal

2.      Editor in JOURNAL OF AERONAUTICAL ENGINEERING

3.      Editorial committee of AEROSPACE KNOWLEDGE

4.      Council of Chinese Society of Aeronautics and Astronautics

5.      Vice director of Youth Council of Chinese Society of Aeronautics and Astronautics

6.      Vice director of Aerostatics Branch of Chinese Society of Aeronautics and Astronautics

7.      Committee of UAV and MAV Branch of Chinese Society of Aeronautics and Astronautics

8.      Council of Reliability Branch of Operations Research Society of China

9.      Committee of Man-machine and Environment Major of System Engineering Society of China

10.    Member of argument group of National XX Special for XXX Observation System – Near space Subsystem

11.    Specialist of the expert group of Reliability of the Aerospace Industry Science and Technology Corporation 

General Introduction

Professor Song Bifeng, male, was born in March 1963, shaanxi fengxiang, distinguished professor as "Chang Jiang scholars program" of ministry of education in aircraft design disciplines, 973 project's chief scientist, professor/Ph.D, doctoral supervisor. In 2000, the national hundred outstanding doctor paper winner. Head of National aviation complex talent training mode of science and technology innovation experimental area, head of the experimental teaching demonstration center, the ministry of education Chang Jiang scholars innovation team leaders, the national outstanding young key teachers of national institutions of higher learning, special allowance winner of the ministry of education administration, the original STIND excellent teachers, Rong He science and technology awards winner. Gainer of the National ministry of education of the key teacher fund.

Head of national key disciplines "aircraft design", committee member of the ministry of education university of aeronautics and astronautics courses, deputy director of the steering committee on major projects in 863 project group, near space vehicle XX department expert group members, XX reliability of generic technology expert group members, the national sub-project of major projects in special group member, deputy chief designer of a certain type of fighter subsystem, expert of reliability expert group of China aerospace science and technology, member of the air force pre-research "Conceptual technical” expert group.

Director of the institute of China aviation, member of unmanned aerial vehicles (uavs) and mav branch of China aviation institute, Deputy director of the aerostats branch, deputy director of man-machine and environment systems society of the reliability of the professional branch of China logistics institute, standing deputy editor of aerospace engineering progress of China's aviation association, editors of journal of aerodynamics and journal of nanjing university of aeronautics and astronautics.

Nearly five years, 18 national 863 projects, 2 national natural science funds, 1 973 project, 2 national defense basic research projects, 3 ministry of education fund, 4 aerospace fund, 4 GAD pre-research fund, 1vair force basic research fund, 6 pre-research and 11 transverse project.

Nearly three years, published 89 papers for teaching and scientific research, including 11 foreign academic paper, 58 domestic core journal article; 6 of SCI, 36 of EI, 16 of ISTP(guest). 4 times chairman or cochairman of the international academic conference.

   In July 2007, was included in "three five talents project" of shaanxi province, was named outstanding contribution expert of shaanxi province in 2009.

   The present main research direction includes: aircraft multidisciplinary design optimization and the top decision-making technology, design of micro aircraft design, airship design, high survivability technologies and reliability, maintainability and supportability project.