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Learning From 1989: Stanford's Anne Kiremidjian Studies The Aftermat

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  • Learning From 1989: Stanford's Anne Kiremidjian Studies The Aftermat

    LEARNING FROM 1989: STANFORD'S ANNE KIREMIDJIAN STUDIES THE AFTERMATH OF EARTHQUAKES

    Stanford Report
    Oct 17 2014

    By Tom Abate

    Civil engineering Professor Anne Kiremidjian was idling at a traffic
    light near the Stanford campus at 5:04 p.m. on Oct. 17, 1989, when
    she felt a sudden jolt and thought her car had been rear-ended.

    "I looked up but there was nothing behind me in the mirror," she
    recalled on the 25th anniversary of the Loma Prieta earthquake. "Then
    I noticed the traffic light swaying overhead and the cars in front
    of me moving up and down like a wave."

    Kiremedjian had, of course, witnessed the seismic wave caused by
    the 6.9 magnitude quake that was centered northeast of Santa Cruz,
    resulting in dozens of deaths and widespread damage, and famously
    knocking down a span of the Bay Bridge.

    Kiremedjian, who has studied the aftermaths of dozens of quakes
    since coming to Stanford in 1972, said Northern Californians were
    comparatively lucky.

    Loma Prieta ruptured a 22-mile stretch of the San Andreas Fault. By
    comparison, the 1906 quake, which had an estimated magnitude of 7.8,
    tore through 267 miles of Northern California.

    "Loma Prieta was a baby earthquake in comparison to 1906," she said.

    Kiremidjian should know. She is an expert at probabilistic seismic
    hazard assessment, studying the nature of specific faults, assessing
    the likely intensity and duration of ground shaking during a quake and
    estimating the probable damage given the type, age and construction
    quality of local structures.

    Earlier this month Kiremidjian was honored by the American Society
    of Civil Engineers for her lifetime achievement in research and her
    commitment to education, especially for her efforts to inspire young
    women to become engineers.

    Born to an Armenian family that moved to avoid persecution, Kiremidjian
    was a teenager when she came to the United States from Bulgaria in
    1965. She steamed through the Bosporus Straits, admiring the dome of
    Istanbul's Hagia Sophia, and stopped briefly in Athens to marvel at
    the Acropolis before her family resumed its odyssey to New York City
    with its modern high-rise structures. This early exposure to ancient
    and modern buildings inspired her to pursue civil engineering.

    Settling in New York City, Kiremedjian entered public high school
    speaking not a word of English. But she excelled at math and science
    and after getting fired from a secretarial job -"I'm still a lousy
    typist," she said - she was offered a chance to study at Queens
    College, where she started classes in 1968.

    "In one instant my life turned around and my career began," recalled
    Kiremidjian, who found that her skills often landed her among men
    who doubted her abilities.

    "Don't ever tell me I can't do something, I'll try that much harder,"
    said Kiremidjian, who, in 1972, came to study civil engineering at
    Stanford after graduating with honors from Columbia.

    She arrived on campus just as Haresh C. Shah, now the Obayashi
    Professor in the School of Engineering, Emeritus, was developing
    a program in earthquake engineering. One of her first assignments
    involved surveying the damage to Managua caused by the earthquake
    that devastated the Nicaraguan capital in December 1972.

    "It was an exciting time," recalled Kiremedjian, who earned her
    doctorate in 1977. "The John A. Blume Earthquake Engineering Center
    was forming. I was at the center of all of these developments, and
    many doors were opened for me." She took an integral part in the
    growth of the center, including serving as co-director from 1987 to
    1994 and director from 1995 to 2002.

    She became an assistant professor in civil engineering in 1978,
    advancing to associate professor in 1985 and full professor in 1991.

    When Loma Prieta struck Stanford, all these experiences came home.

    Among other lessons, the temblor proved that it was possible to
    re-engineer older buildings. A case in point was Roble Hall. Once
    slated for demolition and replacement, alumni support led to a change
    of plans. A seismic upgrade and other modernizations allowed it to
    shrug off Loma Prieta.

    "It shows that, when you do a well-planned retrofit, structures can
    be made safe," Kiremedjian said.

    To help assess the structural health of individual buildings, in 1995
    Kiremidjian developed the first wireless structural monitoring sensors
    with her colleague Teresa Meng, now the Reid Weaver Dennis Professor
    of Electrical Engineering and professor of computer science, emerita,
    and doctoral student Erik Straser.

    The sensors can measure how a structure responds to small vibrations,
    like those caused by a big truck rumbling down the street, as well
    as a large shaking caused by a strong earthquake.

    http://news.stanford.edu/news/2014/october/quake-kiremidjian-profile-10-16-14.html

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