|The UCSD Englekirk Structural Engineering Center will be part of a $105 center led by Purdue University whose goal is to advance research and education to reduce the devastation and loss of human life from earthquakes and tsunamis. The Englekirk Center has the largest outdoor shake table in the United States, allowing researchers to test the seismic response of large-scale buildings, like the three-story precast parking garage pictured above.|
San Diego, CA, September 14, 2009 -- Purdue University will tap into UC San Diego's structural engineering expertise as part of a $105 million grant from the National Science Foundation to create a center that will serve as headquarters for the operations of the George E. Brown, Jr. Network for Earthquake Engineering Simulation, or NEES.
Purdue will connect 14 NEES research equipment sites and the earthquake engineering community through groundbreaking cyberinfrastructure, education and outreach efforts. Purdue's center is expected to begin operations on Oct. 1, and will be housed in the university's Discovery Learning Research Center in Discovery Park. The NEES equipment sites include University of California at San Diego; Oregon State University; University of Nevada, Reno; University of California, Davis; University of California, Berkeley; University of California, Santa Barbara; University of California at Los Angeles; University of Texas, Austin; University of Minnesota; University of Illinois, Urbana; University at Buffalo-SUNY; Cornell University; Rensselaer Polytechnic Institute; and Lehigh University. The co-principal investigator representing UC San Diego on this project is structural engineering professor Enrique Luco.
UC San Diego’s Englekirk Structural Engineering Center houses the largest outdoor shake table in the United States. The NEES at UCSD high performance shake table is used to tests structures weighing up to 2,200 tons and as tall as 100 feet. Its hydraulic actuators are capable of shaking at high speeds that allow researchers to create simulations of the most devastating earthquakes ever recorded.
The goal of the new NEES center at Purdue University is to advance research and education to reduce the devastation and loss of human life from earthquakes and tsunamis.
"I was delighted to learn that Purdue has the opportunity to lead this consortium of first-rate research universities," said Purdue President France A. Córdova, who serves on the National Science Board, the governing board for the NSF, but was excused from deliberations on the award. "I've seen firsthand how devastating an earthquake can be not only to buildings, highways and the infrastructure of a city, but also to families, the community and people's sense of security.
"Purdue's depth of knowledge in earthquake engineering, innovative high-performance computing experts, education professionals and outstanding interdisciplinary research abilities allow the university to make great contributions to this area. The universities and institutions participating have had great individual successes, and we hope to bring them together to create a whole that is even greater than the sum of its parts."
In the past decade, 124 major earthquakes have occurred throughout the world, according to the U.S. Geological Survey. Major earthquakes are generally accepted to register a magnitude in excess of 7 on the Richter scale and inflict serious damage, including the collapse of buildings and bridges, over a large area.
The organization estimates that earthquakes were responsible for 463,959 deaths in the past decade. The Purdue-led NEEScomm Center, which stands for NEES Community and Communications, includes partners from the University of Washington at Seattle, University of Texas at Austin, University of Kansas at Lawrence, San Jose State University, the University of Florida at Gainsville, University of Michigan at Ann Arbor and Fermi National Accelerator Laboratory. The center will help researchers share information and equipment to enable research and innovation in earthquake and tsunami loss reduction, create an educated work force in hazard mitigation, and conduct broader outreach and lifelong learning activities, said Julio Ramirez, the project's principal investigator and a professor of civil engineering.
"Recent events have highlighted the importance of earthquake engineering for the United States and the world," said Ramirez, who also will serve as the center's director. "In China last year, tens of thousands of people perished as entire cities came down. The earthquake caused a tremendous financial burden in terms of rebuilding the civil infrastructure, but more than that, a high percentage of those who died were children - the future of a nation."
Building codes and earthquake preparedness have improved in recent years, but even cities that lead in incorporating the latest safety features are at risk for serious damage, he said.
"Even in Los Angeles, a relatively young city in the global perspective, the building inventory includes structures that were built before buildings were engineered to mitigate earthquake hazard," Ramirez said. "Earthquake design provisions have changed rapidly and substantially since 1980."
Older cities and those in developing countries are likely to have the most buildings vulnerable to earthquakes and face the highest risk for damage and loss of lives, he said.
Forbes magazine cited a 2001 study by GeoHazards International that estimated the number of lives that would be lost if different cities experienced a magnitude 6.0 or higher earthquake. The study evaluated cities in Asia and the Americas. Kathmandu, Nepal, topped the list, followed by Istanbul, Turkey; Delhi, India; Quito, Ecuador; Manila, Philippines; and Islambad, Pakistan. All of the cities were estimated to face tens of thousands of fatalities if an earthquake struck.
The Purdue-based center will lead, manage, operate and maintain NEES. Through the NEES network, researchers from the United States and abroad conduct experiments and simulations of the ways buildings, bridges, utility systems and different materials perform during seismic events. Earthquake engineers will use this information to develop better and more cost-effective ways of reducing earthquake damage through improved materials, construction techniques and monitoring tools, Ramirez said.
The center's education, outreach and training initiatives will use engineering education research to construct next-generation learning experiences that can be disseminated globally, he said. A team of engineering educators and technology specialists will develop the NEES Academy, a state-of-the-art virtual institution for cyber-enabled learning. The academy will help preK-12 teachers develop student interest in, and awareness of, science, mathematics, engineering and technology and will support undergraduate and graduate students engaging in research.
"The center will bring world-class education to any place in the world that has access to broadband Internet," Ramirez said. "It will enable colleges and universities that don't have the educational resources of Purdue to access the facilities, equipment, simulations and teaching tools of the participating institutions."
Joy M. Pauschke, NEES program director at the National Science Foundation, said NEES is an integral part of the U.S. National Earthquake Hazards Reduction Program to support basic research to discover new knowledge, innovation and technologies for earthquake and tsunami loss reduction for the nation.
"During the first five years of operations, the unique NEES experimental capabilities and the extraordinarily strong user support from facility staff have enabled landmark testing and comprehensive experimental data capture for modeling seismic performance that was not possible before NEES," Pauschke said. "Through Purdue's leadership, the NEES experimental facilities, NEEShub and NEES Academy will provide world-class resources for earthquake engineering researchers, educators, students and practitioners not only in the United States, but globally."
A cornerstone of the center is the development of information technology components that allow for new forms of collaboration and cooperation, said Rudolf Eigenmann, co-principal investigator and professor of electrical and computer engineering.
The NEEScomm Center will be a collaborative space and science hub where scientists and engineers can run scientific models and "what if?" scenarios. Hubs, which were first developed at Purdue, allow researchers to run models using a simple Web interface. The hub connects with supercomputing resources on the NSF's TeraGrid and the national DiaGrid, which allow researchers to run their experiments without having to request time on a supercomputer.
"A critical and often difficult component of sharing data to advance research is making the findings of others easy to access and use," Eigenmann said. "The HUBzero technology will allow for someone to simply go to a Web site and instantly be able to view data or run a simulation. It will eliminate the need to first download and install an application to view the data and then spend time downloading a large volume of data before beginning work."
The cyberinfrastructure to be deployed by the NEEScomm Center is powered using HUBzero technology, which was originally created by researchers at Purdue University to support nanoHUB.org, a site for researchers studying nanotechnology. Currently there are nine other hubs online in science, engineering and medicine, and 12 more are expected to be online within a year, including the new NEEShub.
Below is a video about the new NEEScomm Center at Purdue.
Ellen Rathje, professor of geotechnical engineering at the University of Texas at Austin and co-principal investigator of the project, said another key advantage of NEEShub is its data presentation capabilities.
"The new information technology created will enable research to take place that couldn't be done before," Rathje said. "Data will be presented in an easily searchable and usable format, like a virtual lab notebook, that will give experiments a longer life as researchers reuse existing data to run their own analysis and find new insights. It's sort of like Facebook for scientists, but instead of posting vacation photos we're posting research results."
In addition to Ramirez and Eigenmann, Purdue University project co-principal investigators include Thomas Hacker, assistant professor of computer and information technology; Sean Brophy, assistant professor of engineering education; and Saurabh Bagchi, associate professor of electrical and computer engineering.
In addition, assistant professors of civil engineering Santiago Pujol and Ayhan Irfanoglu provide the team with earthquake engineering expertise in information technology matters of tele-operation and data management.
Project co-principal investigator Barbara Fossum, former managing director of Purdue's Cyber Center, will serve as the center's deputy director, and Dawn Weisman, former managing director of Purdue's PRISM: National Nuclear Security Administration Center for Prediction of Reliability, Integrity and Survivability of Microsystems, will serve as information technology director.
Co-principal investigators Brophy and Thalia Anagnos from San Jose State University will co-lead the center's education, outreach and training initiatives.
Fossum said the center will manage the operations of the network and engage the equipment sites to effectively carry out program initiatives.
"The United States has invested close to $300 million to commission and enable the equipment sites, and there are over 100 projects currently under way," she said. "It is a resource for the nation and we want to help realize its full potential by sharing the unique resources and programs at each site across the network and with those interested in mitigating earthquake hazards throughout the world."
NEES began development in 2000 and is a shared national network of 14 state-of-the-art earthquake engineering and tsunami experimental facilities at universities across the United States, including UC San Diego. It includes collaborative tools, a centralized data repository and earthquake simulation software.
Jacobs School of Engineering