Masanobu Shinozuka

Masanobu Shinozuka (December 23, 1930 – November 5, 2018) was a Japanese applied mechanics expert in earthquake and structural engineering. Shinozuka's research focuses on field theory and risk assessment methodology in civil engineering.[1] His works have been applied numerously in earthquake engineering in buildings, bridges, lifeline and environmental systems.

Masanobu Shinozuka
Born(1930-12-23)December 23, 1930
Tokyo, Japan
DiedNovember 5, 2018(2018-11-05) (aged 87)
NationalityJapanese American
Alma materColumbia University
AwardsNational Academy of Engineering
Theodore von Karman Medal (1994)
Scientific career
FieldsCivil Engineering
InstitutionsColumbia University
Doctoral advisorAlfred Freudenthal

Early life and career

Masanobu Shinozuka was born in Tokyo, Japan on December 23, 1930.[2] He earned his B.S. in civil engineering in 1953 and M.S. in 1955 from Kyoto University. Shinozuka later came to the United States and received his Ph.D. in civil engineering under the supervision of Alfred Freudenthal from Columbia University in New York City. From 1958 to 1988, Shinozuka taught in the civil engineering department of Columbia University. Later, he joined the faculty of Princeton University until 1995, and then became professor of civil engineering and Fred Champion Chair of Civil Engineering at the University of Southern California. At USC, he also served as director of the International Institute of Innovative Risk Reduction Research on Civil Infrastructure Systems. From 2001 to 2013, he was a Distinguished Professor of Civil and Environmental Engineering at University of California, Irvine.[3] He was awarded the title of Distinguished Professor by the university's Henry Samueli School of Engineering and the Academic Senate. He returned to Columbia as Professor of Civil Engineering in 2013[4] and died on November 5, 2018.[5]

Honors

Masanobu Shinozuka was the recipient of numerous honors and awards.[6] In 2004, he was awarded the Egleston Award for Distinguished Engineering Achievement.[7] In 1994, he received the prestigious Theodore von Karman Medal from the American Society of Civil Engineers. In 1978, Shinozuka was elected to the National Academy of Engineering. He was also a fellow in the American Society of Mechanical Engineering, an elected foreign member of the Russian Academy of Natural Sciences[8] and an honorary member of the American Society of Civil Engineering.

gollark: I mean, it's not too bad if your *cable* wears out, but it *is* if the device's does.
gollark: (somehow I wrote microUSB there, oops)
gollark: I'm comparing it to USB-A for point 4.
gollark: <@!111608748027445248> - Too many different things over identical looking physical connectors: a "USB-C" port might support power-delivery *input*, power-delivery *output*, Thunderbolt, two different incompatible kinds of video output, and various speeds from USB 2.0 to USB 3.2 Gen2x2 (whyyy).- The ports on devices can end up wearing out problematically, though I don't know if this is better or worse than on competitors like Lightning or µUSB.- A lot of peripherals still don't support it, though this is hardly *its* fault.- I think the smaller connector means you can't put as much weight on it safely, for bigger USB stick-y devices, though I am not sure about this.
gollark: Eh. Sort of. It has its own problems.

References

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.