RESCUE Project to help emergency personnel


rescue-project.jpgThe Responding to Crises and Unexpected Events (RESCUE) Project is funded by the National Science Foundation (NSF), and aims to improve response to disasters and emergencies while keeping injuries to a minimum, with the ultimate goal to prevent any loss of life. I must say the suit the person is wearing looks rather spiffy as though he stepped out from some sort of Star Trek convention, and chances are everything will need to be waterproof just in case rescue work needs to be carried out when it is raining. Gotta love the wearable keyboard on his right hand. Further details from the press release are available after the jump.

Led by the University of California, Irvine, RESCUE brings together researchers from around the country who work in a variety of academic fields that bring a unique perspective to understanding disaster responses.

Social scientists, for example, have an understanding of the communication challenges disaster responders face when trying to interact with each other and the public. Experts in information technology are skilled at building complex information systems, data networks and other systems that can help decision makers in an emergency. Engineers can provide a detailed analysis of a disaster’s impact on transportation systems and other physical infrastructure. By bringing experts from these various disciplines together with first responders and community leaders, RESCUE is able to bring the best ideas and technologies from academic research and make them available to the people who need them most.

Sharad Mehrotra, a professor at the University of California, Irvine and the director of RESCUE, cites improving crisis communication as an example of how this multidisciplinary approach allows the project to provide better solutions to first responders. “Looked at from an IT perspective purely, the problem is essentially of message delivery through multiple communication channels,” Mehrotra said. “But the ‘real’ issue is not the delivery of messages but rather generating an appropriate response.”

To meet this challenge, the scientists provided risk communication models and insight into how humans perceive and react to risk communications. Engineers helped the team understand how tools like early warning systems could impact evacuation routes and other concerns. The result has been new approaches to risk communication that are being put into practice.

“The multidisciplinary alliance allowed us to explore the problem of risk communication holistically instead of simply as a technology problem,” Mehrotra said.

According to professor Ramesh Rao, director of the University of California, San Diego division of the California Institute for Telecommunications and Information Technology, including first responders has greatly improved the quality of the products that RESCUE has produced. One example is a backpack that provides a satellite-enabled wireless network in a disaster area. RESCUE worked on its design with the people who would actually use the device in a disaster. The result is a product that is easy to use and is compatible with most wireless devices, so no additional special equipment is needed.

This collaborative approach is typical with RESCUE, explained Rao. “Responders like it because they dictate the user interface and functionality–they get to design it, instead of having it imposed on them.”

Another tool being developed by RESCUE researchers is a complex disaster simulation platform called MetaSim. This computer system allows researchers to merge different types of simulations at once in order to both provide planners with a more accurate picture of what conditions may be like during and after a disaster. It also provides researchers with a way to test and validate how new technology concepts could help a response effort.

RESCUE has participated in several emergency preparedness drills with local responders to analyze how effective the potential response is and to find ways their expertise can help emergency personnel. These drills and exercises have already produced useful new tools and insights that will be put into place in the event of a disaster.

Source: Medgadget

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