王峰 教授

作者: 时间:2016-11-30 点击数:

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       王峰  EVERETT X.WANG  教授

所属学院:信息工程学院

导师类别:硕导

科研方向:

  1.卫星导航,包括导航基带芯片设计、差分定位高精度增强系统、卫星-惯性组合导航;

  2.机器人、无人机、智能车辆动力学建模和控制;

  3.平衡车自动驾驶, 立体视觉检车测车道等研究;
  4.纳米电子器件、量子电子器件建模和仿真。

硕士招生学院:信息工程学院                                            

个人简述:

王峰教授是我校百人计划引进的特聘教授,具有20多年在一流微电子芯片公司从事研究、设计和生产管理的能力,他在国际学报和国际期刊上发表论文53篇,美国和国际专利23项。王教授带领团队完成了北斗-GPS高性能基带芯片的开发,填补了我国导航芯片的空白,并于2010年发明了嵌入在移动网中的卫星导航差分技术、用来构建世界上最便宜、用户最多的高精度导航增强系统。在卫星导航系统中,干扰和欺骗普遍存在,王教授提议的基于合成孔径、相控阵天线,结合惯性导航的新技术可以有效的抑制干扰。为了应世界潮流,在节能环保的智能交通系统上,提出高科技的解决方案,开发了世界上最准确的单轨车辆动力学模型,利用惯性传感器、电脑控制的转弯电机、非线性车辆模型和控制软件构成的自动平衡系统,来达到安全、容易驾驶的要求。王教授曾承担和参与多项英特尔公司芯片开发项目,参加过0.25微米、0.18微米、0.13微米、90纳米、65纳米和45纳米器件开发任务,历任资深工程师(Sr. Engineer)、高级工程师 (Staff Engineer) 、资深高级工程师 (Sr. Staff Engineer)

学科领域:

科学学位:信息与通信工程

专业学位:电子与通信工程

教育背景:

19827月北京大学核物理系学士

198604月中国科学院理论物理所粒子物理系硕士

199310月美国德克萨斯大学奥斯汀分校微电子学博士

工作经历:

2011/10–今,广东工业大学,信息工程学院,特聘教授

2014/10–今,深圳先进科学院北斗研究院首席科学家

2013/09–今,峰华经纬科技有限公司,首席技术官(CTO

2009/032011/09,城都远见科技公司,首席技术官(CTO

2006/082011/09,高峰技术公司(EverteQ Inc.),首席技术官(CTO

2002/042006/07,英特尔公司(Intel Corp.),主任工程师,团队领导

1999/042002/03,英特尔公司(Intel Corp.),产品经理,主任工程师

1993/101999/03,英特尔公司(Intel Corp.),主任工程师

学术兼职:

2013 IEEE智能交通系统国际会议分会主席

主要荣誉:

1993,美国半导体技术会议最佳论文奖 TECHCON,由美国政府和美国20多家半导体工业公司SRC主办)

1995,英特尔技术电脑辅助设计部成就奖

1996,英特尔技术电脑辅助设计部推动前沿奖

1999,英特尔技术电脑辅助设计部推动前沿奖

2000,英特尔工业顾问奖

2000,英特尔制造工艺会议,最佳论文奖

2003,英特尔逻辑技术开发部团队质量奖:“开发应力硅器件迁移率物理模型的杰出贡献”

2011,科技部中国科技创业大赛三等奖

2013,带领学生团队获得全国大学生挑战杯国赛一等奖

2014,中国互联网创新创业大赛华南分赛区第二名(银奖)

2014,带领学生团队获得小平科技创新团队的荣誉称号

2014,寻找广东最具创新力创业企业--“南海•大沥杯”广东青年创新创业大赛暨盐商杯中国青年创新创业大赛广东赛区一等奖(卫星导航差分定位项目)

2014,寻找广东最具创新力创业企业--“南海•大沥杯”广东青年创新创业大赛暨盐商杯中国青年创新创业大赛广东赛区一等奖(智能车自动平衡项目)

主要论文:

Everett X. Wang, Juncheng Zou, Gengping XueYijun Liu, and Qun Fan, Development of efficient nonlinear benchmark bicycle dynamics for control applications, IEEE Transaction on Intelligent Transportation Systems, 2015.

Ying Xiang Yi-Kun Liu Zhi-Yong Zhang Hong-Jun You Tian Xia Everett Wang and Zheng-Dong Cheng, Observation of the photorefractive effects in bent-core liquid crystals, OPTICS EXPRESS,2013.

Ming-Ya Xu, Yi-Kun Liu, Ying Xiang,Tian Xia, Everett Wang and Zheng-Dong Cheng, A fast light-induced grating in bent-core nematic liquid crystals with in-plane switching, Applied Physics Letters,2013.

Everett Wang, Juncheng Zou,Yijun Liu, Qun FanAnd Xiang Ying, Symbolic derivation of nonlinear benchmark bicycle dynamics with holonomic and nonholonomic constraints, 16TH IEEE Intelligent Transportation System Conference,2013.

Ying Xiang, Yi-Kun Liu, Yong-Hai Chen, Yu-Bing Guo, Ming-Ya Xu, Zhen Ding , Tian Xia Jia-Hui Wang, Yi-Wu Song , Ming-Ze Yang, Everett Wang Yu-Hong Song . Shun-Lin Yang , Guang-Quan She, Investigation of the geometrical effect on photoelectric properties of nano-ZnO with doped liquid crystal technique, Applied Physics A,2012.

E. Wang, P. Matagne, L. Shifren, B. Obradovic, R. Kotlyar, S. Cea, M. Stettler, M.D. Giles, Physics of hole transport in strained silicon MOSFET inversion layers, IEEE Transactions on Electron Devices, Vol. 53, No. 8, August 2006, P. 1840.

S. Dey, M. Agostinelli, C. Prasad, X. Wang, and L. Shifren, Effects of hot carrier stress on reliability of strained-si mosfets , IEEE International Reliability Physics Symposium, pp. 461-464, San Jose, California, 2006

L. Shifren, X. Wang, P. Matagne, B. Obradovic, C. Auth, S. Cea, T. Ghani, J. He, T. Hoffman, R. Kotlyar, Z. Ma, K. Mistry, R. Nagisetty, R. Shaheed, M. Stettler, C. Webber, and M.D. Giles, "Driver current enhancement in p-type metal-oxide-semiconductor field-effect transistors under shear uniaxial stress", Applied physics letters. Vol. 85, No. 25, 2004, P. 6188

E. Wang, P. Matagne L. Shifren, B. Obradovic, R. Kotlyar, S. Cea, J. He, Z. Ma, R. Nagisetty, S. Tyagi, M. Stettler, and M.D. Giles, Quantum mechanical calculation of hole mobility in silicon layers under arbitrary stress, IEEE IEDM04 P. 147, San Francisco, 2004

S. Cea, M. Armstrong, C. Auth, T. Ghani, M.D. Giles, T. Hoffmann, R. Kotlyar, P. Matagne, K. Mistry, R. Nagisetty, B. Obradovic, R. Shaheed, L. Shifren, M. Stettler, S. Tyagi, X. Wang, C. Weber, K. Zawadzki, Front end stress modeling for advanced logic technologies, IEEE IEDM04 P. 963, San Francisco, 2004

R. Kotlyar, M.D. Giles, P. Matagne, B. Obradovic, L. Shifren, M. Stettler, E. Wang, Inversion Mobility and gate leakage in high-k/metal gate MOSFETs, IEEE IEDM04 P. 391, San Francisco, 2004

M.D. Giles, M. Armstrong, C. Auth, S.M. Cea, T. Ghani, T. Hoffmann, R. Kotlyar, P. Matagne, K. Mistry, R. Nagisetty, B. Obradovic, R. Shaheed, L. Shifren, M. Stettler, S. Tyagi, X. Wang, C. Weber, K. Zawadzki, Understand Stress enhanced Performance in Intel 90nm CMOS technology, 2004. Symposium on technology. PP. 118 - 119

B. Obradovic, P. Matagne, L. Shfren, X. Wang, M. Stettler, J. He and M.D. Giles, A physically-based analytic model for stress-induced hole mobility enhancement, International Computational Electronics, 2004. IWCE-10 2004. Abstracts. 10th International Workshop on Computational Electronics 2004 PP. 26 27

Paul Packan Mark Doczy, Rafael Rios, Tahir Ghani, Brian Doyle, Everett Wang, "Understanding Fundamental Tradeoffs in Metal Gate MOS Devices", Intel Process Technology Conference, San Francisco, CA. 2000

E. Wang, P. Packan, M. Giles, R. Rios and F, Leon, "Application of

Quantum Modeling in Deep Submicron/Ultra-thin Technologies", Invited Talk, NASA Device Simulation Workshop, Mountain View, CA, May, 1999

W. Shih, E. Wang, S. Jallepalli, F. Leon, C. Maziar and A. Tasch, "Modeling gate leakage current in nMOS structures due to tunneling through an ultra-thin oxide", Solid State Electronics. Vol. 42, No. 6, 1998

K. Seshan, D. Scharfetter, B. Johnson, T. Marieb and E. Wang, "Bi-Axial Uni-Axial Stress Effects on P865 Device Parameters", Intel Process Technology Conference 98', Oct.12-13, 1998, San Francisco, CA. Abstract appears in Proceeding page 41-44.

E. Wang, D. Scharfetter, P. Aminzadeh, M. Alavi, F. Leon and W. Shih, "Modeling of Reverse Temperature Dependence of Substrate Current for Deep Submicron MOSFETs with Scaled Voltage Supply", Intel Process Technology Conference 98', Oct.12-13, 1998, San Francisco, CA. Abstract appears in Proceeding page 77-80.

E. Wang, M. Stettler, S. Yu and C. Maziar, "Application of Cumulant Expansion to the Modeling of Non-local Effects in Semiconductor Devices", International Workshop on Computational Electronics VI, Sep. 19-21, 1998, Osaka, Japan

E. Wang and F, Leon, "Device Simulation Requirements in Industrial Environment", Invited Talk, NASA Device Simulation Workshop, Mountain View, CA, 1997    

E. Wang, M. Giles, S. Yu, F. Paco, A. Hiroki, and S. Odanaka, "Recursive M-tree Method for 3-D Adaptive Tetrahedral Mesh Refinement and Its Application to Brillouin Zone Discretization", SISPAD'96, Sep. 2-4, 1996, Tokyo, Japan

Ghetti, X. Wang, F. Venturi and F. Leon, "Stability Issues in Self-consistent Monte Carlo-Poisson Simulation", Simulation of Semiconductor Devices and Processes, Vol. 6, Edited by H. Pichler, Sep. 1995, p. 388

知识产权:

Computerized automated dynamic control system for single-track vehicles US 7,006,901 B2

单轨交通工具及其控制方法和控制装置,ZL 2003 8 0102727.0

Computerized automated dynamic control system for single-track vehicles EU 1563716

Double sided optoelectronic integrated circuitUS 2004/024538 A1

Tunable add/drop multiplexer US 2003/0198438 A1

Fabrication of optical waveguides for reduction of minimum waveguide spacingUS 6,864,114 B2*

Method of fabrication to sharpen corners of Y-branches in integrated optical, components and other micro-devices US 6,818,559 B2*

Method of fabrication to sharpen corners of Y-branches in integrated optical, components and other micro-devices US 6,730,988 B2*

Extracting phase error in waveguidesUS7,215,841 B2

Complementary metal oxide semiconductor integrated circuit using uniaxial compressive and biaxial compressive stress  US 7,470,972 B2*

Complementary metal oxide semiconductor integrated circuit using uniaxial compressive and biaxial compressive stress US 2009/0075445 A1*

Methods of forming stress enhanced PMOS structuresUS 2006/0226453 A1

An embedded wide area augmentation system (WAAS) for global navigation satellite system (GNSS) within cellularUS 61/460,987 networks

Architectures and methods for providing differential GNSS and Network RTK Location Base Services in mobile networks , US 61/452,093

一种内嵌在手机网络的全球卫星广域增强系统,201210006895.0

一种嵌入在蜂窝网络系统的DGNSSNRTK系统,201210063138.7

一种GNSS卫星信号捕捉方法,201410048188.7

一种GNSS卫星跟踪方法,201410048170.7

一种同步卫星轨道精密定轨方法,201310460360.5

一种伪距离和多普勒组合差分定位系统及方法,申请号:201410487596.2

科研项目:

1.广东省惠州市天鹅计划:北斗卫星导航定位高端芯片及系统设计研发团,2015/01-2018/12230万元,在研,主持;

2.广州市产学研合作专项,S频段卫星移动通信终端射频功率放大器芯片研发,2014/01-2015/12300万元,在研,主持;

3.广东省高新技术产业化项目:可重构高性能北斗-GPS双模卫星定位关键IP设计,2014/01-2015/1210万元,在研,主持;

地址:广州市番禺区广州大学城外环西路100号广东工业大学行政楼325    邮编:510006

电话:020-39322722    邮箱:yzb@gdut.edu.cn