 |
|
Saving lives through smarter hurricane evacuations
August 29, 2008MIT student's software seen aiding emergency officials' decision-making
CAMBRIDGE, Mass. - Hundreds of lives and hundreds of millions of dollars could potentially be saved if emergency managers could make better and more timely critical decisions when faced with an approaching hurricane. Now, an MIT graduate student has developed a computer model that could help do just that.
Michael Metzger's software tool, created as part of the research for his PhD dissertation, could allow emergency managers to better decide early on whether and when to order evacuations - and, crucially, to do so more efficiently by clearing out people in stages. The tool could also help planners optimize the location of relief supplies before a hurricane hits.
By analyzing data from 50 years of hurricanes and detailed information on several major ones, and by comparing the information available at various times as a hurricane approached with data from the actual storm's passage, Metzger said he was able to produce software that provides a scientifically consistent framework to plan for an oncoming hurricane. His approach uses the best available hurricane track models developed over the years, but even these can be wrong half of the time - a degree of uncertainty that further complicates the job for local emergency managers.
Because many of these managers have never had to confront the life-or-death realities of an approaching hurricane, they need a consistent analytical framework to consider the sequence of complex decisions that they need to make. For example, a poorly planned evacuation could cause roadway gridlock and trap evacuees in their cars - leaving them exposed to the dangers of inland flooding. As another example, ordering too many precautionary evacuations could lead to complacency among local residents, who might then ignore the one evacuation advisory that really matters.
"All in all, this is a complex balancing act," Metzger says.
The concept of evacuating an area in stages - focusing on different categories of people rather than different geographical locations - is one of the major innovations to come out of Metzger's work, since congestion on evacuation routes has been a significant problem in some cases, such as hurricanes Katrina and Rita. Metzger suggests that, for example, the elderly might be evacuated first, followed by tourists, families with children, and then the remaining population. The determination of the specific categories and their sequence could be determined based on the demographics of the particular area.
By spacing out the evacuation of different groups over a period of about two days, he says, the process would be more efficient, while many traditional systems of evacuating a given location all at once can and have caused serious congestion problems. With his system, officials would get the information needed to "pull the trigger earlier, and phase the evacuation," he says, and thus potentially save many lives. Coincidentally, during the recent hurricane Fay in Florida, a modest version of a selective evacuation was implemented successfully when tourists were asked to leave while residents remained in place.
Other factors that could help to make evacuations more effective, he says, include better planning in the preparation of places for evacuees to go to, making sure buses and other transportation are ready to transport people, and preparing supplies in advance at those locations.
Metzger, who is a research assistant in the MIT Engineering Systems Division's Center for Engineering Systems Fundamentals, and a PhD student in the Operations Research Center, received a second-place award out of more than 100 entries from the U.S. Department of Homeland Security earlier this year for the work. He has already discussed his conclusions with federal and state emergency officials, who said they are interested in adopting the new methodology. The hope is that they will initially use it side by side with their existing procedures, in order to track exactly how the results would compare, Metzger says. It is possible that his methods, implemented as a visually appealing computer program, could be used as a "cockpit training tool" for local emergency managers.
His adviser Richard Larson, Mitsui Professor of Engineering Systems and of Civil and Environmental Engineering, says Metzger's approach "embodies elements of engineering, management and the social sciences." For example, while much of the work was strictly mathematical in the analysis of decision-making strategies, there was also a strong component of sociology involved in evaluating people's responses to false-alarm evacuations.
Metzger has discussed the work with officials in South Africa, and also received an award from the National Science Foundation's graduate student conference. He plans to refine the software further over the course of the next year or so.
Massachusetts Institute of Technology
By analyzing data from 50 years of hurricanes and detailed information on several major ones, and by comparing the information available at various times as a hurricane approached with data from the actual storm's passage, Metzger said he was able to produce software that provides a scientifically consistent framework to plan for an oncoming hurricane. His approach uses the best available hurricane track models developed over the years, but even these can be wrong half of the time - a degree of uncertainty that further complicates the job for local emergency managers.
Because many of these managers have never had to confront the life-or-death realities of an approaching hurricane, they need a consistent analytical framework to consider the sequence of complex decisions that they need to make. For example, a poorly planned evacuation could cause roadway gridlock and trap evacuees in their cars - leaving them exposed to the dangers of inland flooding. As another example, ordering too many precautionary evacuations could lead to complacency among local residents, who might then ignore the one evacuation advisory that really matters.
"All in all, this is a complex balancing act," Metzger says.
The concept of evacuating an area in stages - focusing on different categories of people rather than different geographical locations - is one of the major innovations to come out of Metzger's work, since congestion on evacuation routes has been a significant problem in some cases, such as hurricanes Katrina and Rita. Metzger suggests that, for example, the elderly might be evacuated first, followed by tourists, families with children, and then the remaining population. The determination of the specific categories and their sequence could be determined based on the demographics of the particular area.
By spacing out the evacuation of different groups over a period of about two days, he says, the process would be more efficient, while many traditional systems of evacuating a given location all at once can and have caused serious congestion problems. With his system, officials would get the information needed to "pull the trigger earlier, and phase the evacuation," he says, and thus potentially save many lives. Coincidentally, during the recent hurricane Fay in Florida, a modest version of a selective evacuation was implemented successfully when tourists were asked to leave while residents remained in place.
Other factors that could help to make evacuations more effective, he says, include better planning in the preparation of places for evacuees to go to, making sure buses and other transportation are ready to transport people, and preparing supplies in advance at those locations.
Metzger, who is a research assistant in the MIT Engineering Systems Division's Center for Engineering Systems Fundamentals, and a PhD student in the Operations Research Center, received a second-place award out of more than 100 entries from the U.S. Department of Homeland Security earlier this year for the work. He has already discussed his conclusions with federal and state emergency officials, who said they are interested in adopting the new methodology. The hope is that they will initially use it side by side with their existing procedures, in order to track exactly how the results would compare, Metzger says. It is possible that his methods, implemented as a visually appealing computer program, could be used as a "cockpit training tool" for local emergency managers.
His adviser Richard Larson, Mitsui Professor of Engineering Systems and of Civil and Environmental Engineering, says Metzger's approach "embodies elements of engineering, management and the social sciences." For example, while much of the work was strictly mathematical in the analysis of decision-making strategies, there was also a strong component of sociology involved in evaluating people's responses to false-alarm evacuations.
Metzger has discussed the work with officials in South Africa, and also received an award from the National Science Foundation's graduate student conference. He plans to refine the software further over the course of the next year or so.
Massachusetts Institute of Technology
Hurricane Current Events and Hurricane News RSSVenus comes to life at wavelengths invisible to human eyes
A pale yellow-green dot to the human eye, Earth's twin planet comes to life in the ultraviolet and the infrared. New images taken by instruments on board ESA's Venus Express provide insight into the turbulent atmosphere of our neighbouring planet.
It's relative: Contrasting hurricane theories heat up
In a paper published in the journal Science today, scientists Gabriel A. Vecchi of NOAA's Geophysical Fluid Dynamics Laboratory, Kyle L. Swanson of the University of Wisconsin - Milwaukee Atmospheric Sciences Group and Brian J. Soden from the University of Miami's Rosenstiel School of Marine and Atmospheric Science teamed up to study hurricane data observed over more than 50 years.
Scientists discover quantum mechanical 'hurricanes' form spontaneously
University of Arizona scientists experimenting with some of the coldest gases in the universe have discovered that when atoms in the gas get cold enough, they can spontaneously spin up into what might be described as quantum mechanical twisters or hurricanes.
Did Termites Help Katrina Destroy New Orleans Floodwalls?
Three years after Hurricane Katrina devastated New Orleans, people still speculate over causes of the destruction of the city's floodwall system.
Diversity of plant-eating fishes may be key to recovery of coral reefs
For endangered coral reefs, not all plant-eating fish are created equal. A report scheduled to be published this week in the early edition of the journal Proceedings of the National Academy of Sciences suggests that maintaining the proper balance of herbivorous fishes may be critical to restoring coral reefs, which are declining dramatically worldwide.
Future Risk of Hurricanes: The Role of Climate Change
Researchers are homing in on the hurricane-prone Gulf of Mexico and Caribbean Sea to assess the likely changes, between now and the middle of the century, in the frequency, intensity, and tracks of these powerful storms. Initial results are expected early next year.
Portable imaging system will help maximize public health response to natural disasters
Researchers at the Georgia Tech Research Institute (GTRI) have developed a low-cost, high-resolution imaging system that can be attached to a helicopter to create a complete and detailed picture of an area devastated by a hurricane or other natural disaster.
Wetlands Restoration Not a Panacea for Louisiana Coast
Counting on wetlands restoration projects to protect storm buffeted infrastructure along the Louisiana Coast is likely to be a "losing battle" that provides "false hope" and prevents endangered communities from clearly planning for their future, says a researcher from Western Carolina University (WCU).
Flood-alert system eased fears at Texas Medical Center
The Texas Medical Center (TMC) was close to flooding during and after Hurricane Ike, but a long-term collaboration with Rice University paid off by calming fears of the kind of deluge that caused extensive damage during Tropical Storm Allison in 2001.
Stevens strengthens Dominican Republic's Early Warning System for Inundations
Stevens Institute of Technology's Center for Maritime Systems began a project to strengthen the Early Warning System (EWS) for Inundations in the Dominican Republic.
More Hurricane Current Events and Hurricane News Articles
 | The Magic School Bus Inside A Hurricane (Magic School Bus) by Joanna Cole When Ms. Frizzle's class takes a field trip to the local weather station, they end up in a... |
 | The Hurricanes: One High School Team's Homecoming After Katrina by Jere Longman In August 2005, Hurricane Katrina pummeled the lower end of Plaquemines Parish, Louisiana, a peninsula housing one of the nation’s most isolated, vulnerable, and vital counties. A year later several ravaged communities came together to form South Plaquemines High. Kids who were former rivals defiantly nicknamed their football team the Hurricanes and made the 2006 state playoffs. In 2007, South... |
 | Hurricane: The Miraculous Journey of Rubin Carter by James S. Hirsch In 1967, the black boxer Rubin "Hurricane" Carter and a young acquaintance, John Artis, were wrongly convicted of triple murder by an all-white jury in Paterson, New Jersey. Over the next decade, Carter gradually amassed convincing evidence of his innocence and the vocal support of celebrities from Bob Dylan to Muhammad Ali. He was freed in 1976 pending a new trial, but he lost his appeal -- to... |
 | Two Bobbies: A True Story of Hurricane Katrina, Friendship, and Survival by Kirby Larson, Mary Nethery Bobbi and Bob Cat are the best of friends. When their hometown of New Orleans was struck by Hurricane Katrina, many lost everything. But not Bobbi and Bob Cat—they still had each other. Only by staying together could they survive. This is the story of their remarkable friendship.... |
 | Hurricane Book & CD (Read Along Book & CD) by David Wiesner When a storm is raging, David and George are glad to be inside the house, snug and safe. In this spectacular picture book by Caldecott Honor recipient David Wisener, a fallen tree becomes the threshold to the limitless voyage of the imagination, which David and George share as only true friends--and... |
 | White Hurricane: A Great Lakes November Gale and America's Deadliest Maritime Disaster by David G. Brown, David Brown "Brings history to life in a book as readable as any novel." --Good Old Boat On Friday, November 7, 1913, after four days of winds up to 90 miles an hour, whiteout blizzard conditions, and mountainous seas, 19 ships had been lost on the great-lakes, 238 sailors were dead, and Cleveland was confronting the worst natural disaster in its history. David G. Brown combines narrative intensity with... |
 | 'Cane Mutiny: How the Miami Hurricanes Overturned the Football Establishment by Bruce Feldman One team. One Dynasty. One book that goes inside the legend. Features a new chapter on the 2004-05 season-and 8 pages of photographs. When fans think of college football, they think of Miami-the cool school with street cred that all the kids dream of playing for. A sports powerhouse unlike any other, it is a dynasty fueled not by individuals but by the aura of "the Miami Vice"-a swaggering,... |
 | Love Is Like A Hurricane Volume 5 (Yaoi) (Love Is Like a Hurricane) by Tokiya Shimazaki The adventures of Mizuki and Azuma come to an end in the final volume of Love is Like a Hurricane! Mizuki's sister hires him a tutor after his earlier sessions with Azuma ended up being lessons in punishment instead of math and reading! The new tutor, like Azuma, catches a whiff of Mizuki's uke scent and eventually pounces! Is this the end of our passionate... |
 | Hurricane & Tornado (DK Eyewitness Books) by Jack Challoner New Look! Relaunched with new jackets and 8 pages of new text! Here is a dramatic and compelling guide to nature's most dangerous and destructive forces. Stunning full-color photographs, models and illustrations offer a unique "eyewitness" view of catastrophic weather conditions. See into the eye of a spiraling cyclone, hailstones the size of tennis balls, a spectacular lightning ball, the... |
 | Hurricanes by Seymour Simon Hurricanes. Typhoons. Cyclones. No matter what you call them, these formidable, swirling storms are the most devastating events in nature. hurricanes takes young readers on an in-depth exploration of one of the most awe-inspiring phenomena on Earth! This dramatic account of hurricanes and the disasters they leave behind, including Andrew and Katrina, are intensified through arresting full-color... |
| © 2008 BrightSurf.com |