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创新班导师 罗海飙

罗海飙

性别:男

职称:助理研究员

职务:助理研究员

电子邮件:luohaibiao@gz.iscas.ac.cn

所在部门:并行软件研发中心

通讯地址:广州南沙区海滨路1121号广州中科院工业技术研究院A栋六楼

电话号码:无

邮政编码: 511458

研究方向/领域:并行算法、高性能计算及性能优化

教育经历

2002.09—2010.08??? 波士顿大学 机械工程系? 博士

2000.01—2002.08??? 新奥尔良大学 应用数学? 硕士

1993.09—1997.07????兰州大学 计算数学系????? 学士

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工作经历

2011.09—至今????????? 开元棋牌里面的斗牛_开元棋牌网址是多少_五福彩票开元棋牌???? 并行软件研发中心??? ? 助理研究员

2011.02—2011.09??? 武汉新迪数字有限公司????????MSC中国研发中心??????? ??????????????? 高级研究员?

??2006.01—2010.08??? Physical Acoustics Lab,Boston University? 科研助理??

? 2002.09—2005.12??? Aerospace & Mechanical Engineering Dept.,Boston University,? 科研与教学助理

??2000.01—2002.05??? Applied Mathematics Dept., University of New Orleans, 科研助理??

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期刊及会议文章

  • Wei D, Luo H, Finite Element Analysis on Heat Transfer to Molten Polymer Flow in Pipe with Viscous Dissipation International Journal of Heat and Mass Transfer, Vol. 46, 2003, 3097-3108.
  • Luo H, Coldstein I, Udelson D, A Three-Dimensional Theoretical Model of the Relationship Between Cavernosal Expandability and Percent? Cavernosal Smooth Muscle. International Journal of Sexual Medicine, Vol 4, 2007, 644-655
  • Cleveland RO, Luo H, Willams, JC, Jr, Stress waves in human kidney stones: Shear dominates spall. Journal of Urology, Vol 177, 2007, 415-415
  • Luo H, Williams JC, Jr. Cleveland RO, 3D Numerical Simulations of Lithotripsy Shock Wave Propagation In Kidney Stone.. accepted by J. Acoust. Soc. Am. EL.
  • Luo H, Williams JC, Jr. Cleveland RO, Fracture Mechanisms of Kidney Stones Subject To Lithotripsy Shock Wave: a Numerical Study. In reviewed by J. Acoust. Soc. Am.
  • Luo H, Coldstein I, Udelson D, Relationship between Cavernosal Expandability and Percent Cavernosal Smooth Muscle: A Theoretical Model, 5th World Congress of Biomechanics, Munich, German, Aug, 2006
  • Luo, H. Cleveland RO. Williams JC. Jr. Numerical Simulations of Kidney Stones Subject To Lithotripsy Shock Waves. 2nd International Urolithiasis Research Symposium, April, 2008.
  • Luo. H. Cleveland RO. Williams JC. Jr. Lithotripters with Broad Focus of Shock Wave Breaks Kidney Stones More Efficiently: Numerical Simulations of Kidney Stone Comminution Subject To Lithotripsy Shock Wave. Frontiers in Biomedical Devices Conference, ASME, June, 2008.

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