The goal of the technology is to expose trainees to real-life situations and to focus on their interactions with each other, said Capt. Henry de Vries of the New York State Police. It will be part of an extensive program to help save the lives of people involved in highway accidents and the emergency responders on the scene.
"This project provides incident responders from all disciplines the opportunity to train together in real time for the purpose of learning the latest best practices in incident-scene safety, coordination, and quick clearance of highway events," de Vries said.
In the virtual world, each participant assumes a role (firefighter, EMT, police officer, etc.) and interacts with others at the scene of an accident or other emergency. Participants, who can be in the same room or in remote locations, wear headsets to talk to others in the game. The game can accommodate hundreds of players.
The players experience the scenarios in real time and can see how their actions and the actions of others affect the situation, for good or bad. Sessions are recorded so training staff and participants can review and critique what happened.
"Every scenario has a moderator watching who can pause and resume the game to give feedback," said Michael Pack, laboratory director of the Clark School's Center for Advanced Transportation Technology Laboratory (CATT Lab) at the University of Maryland. "He or she can also throw in 'hiccups' to test the reactions of the players."
For example, in a scenario involving a three-car accident, the moderator can quickly and easily add a tractor trailer spilling fuel to the mix or cause a fire to increase in intensity.
"There's never the same thing twice," said Pack.
A steering committee made up of police officers, firefighters, EMTs, and federal and state transportation officials is developing training criteria for the game, which the I-95 Corridor Coalition hopes to use to certify emergency responders. The coalition devoted $1.4 million to the game's development and plans to provide more funding for its implementation.
"This training tool is specifically targeted to promote the safety of the responders themselves, as well as the traveling public who encounter highway incidents," de Vries said. "We are targeting core competencies that have been developed through careful study and coordination with the National Traffic Incident Management Coalition's National Unified Goal for Incident Responders, the Federal Highway Administration International Scan Report for Incident Response, and the I-95 Corridor Coalition's Quick Clearance Program."
Emergency responders in New Jersey and Georgia will begin testing the system early in 2008, and it may be deployed up and down I-95 later that year.
Forterra Inc. designed the game engine, including capabilities for voice communications and 3-D interaction over the web. The same platform is used by the military to train soldiers and is the basis of MTV's "Virtual Laguna Beach."
CATT Lab researchers, including undergraduate students from aerospace and mechanical engineering, computer science, and art disciplines, worked with the coalition to design the game's scenarios and are reprogramming the game engine to customize it to the coalition's specifications.
About the A. James Clark School of Engineering
The Clark School's graduate programs are collectively the fastest-rising in the nation. In U.S. News & World Report's annual rating of graduate programs, the school is 15th among public and private programs nationally, ninth among public programs nationally, and first among public programs in the mid-Atlantic region. The school offers 13 graduate programs and 12 undergraduate programs, including degree and certification programs tailored for working professionals.
The school is home to one of the most vibrant research programs in the country. With major emphasis on key areas such as communications and networking, nanotechnology, bioengineering, reliability engineering, project management, and intelligent transportation systems and space robotics, as well as electronic packaging and smart small systems and materials, the Clark School is leading the way toward the next generations of engineering advances.
Visit the Clark School homepage at www.eng.umd.edu.
