New system tracks firefighters, special forces

The system allows soldiers or firefighters to pinpoint their own and their comrades' whereabouts on digital maps displayed on handheld personal digital assistants. It can transmit this information via satellite phone, making it available to Internet-connected commanders or observers anywhere in the world. It even gives users the option of punching a panic button or sending text messages such as "need more water," "pull me out," or simply "help!"

"It's live and it's in real time," said UF electrical and computer engineering senior Rolando Estrella.

Estrella is among seven UF engineering seniors who spent the semester creating the system as part of the College of Engineering's Integrated Product & Process Design program. The 11-year-old program's goal is to assist corporations, small businesses and government agencies with engineering problems while giving engineering students practical experience working on real-world projects.

The team was sponsored by defense contractor WinTec Arrowmaker Inc., Chang Industries, U.S. Special Operations and the U.S. Forest Service. Karl Gugel, a lecturer in electrical and computer engineering and the faculty leader, said the U.S. Forest Service's goal was to explore ways to upgrade its World War II-era equipment, which for communications purposes consists of traditional two-way radios.

"You wouldn't believe how crude their equipment really is," he said. The team sought to design an inexpensive system using off-the-shelf equipment or parts that would function in areas with no other available communications technology. The technology also had to be easy to use, robust and secure.

To achieve that goal, team members created a system with several different parts. Each firefighter carries a "FieldUnit," a cellphone-sized device equipped with a Global Positioning System. The unit communicates via radio signal with a "SmartNode," a nearby laptop equipped with radio transmitter and receiver. The laptop then transmits this information via satellite phone or other means if available.

At its most stripped-down, the system provides only location information for firefighters or soldiers to observers elsewhere. But users can add the PDAs to their FieldUnits. That gives them the capability to send messages and see their locations on road maps, terrain maps or satellite maps – whatever happens to be available for the area. In theory, FieldUnits could also add sensors, such as temperature gauges, or even cameras.

The project presented multiple challenges; chief among them was making sure the communications links functioned smoothly and consistently. For example, the students had to write special software to ensure that multiple FieldUnits could communicate with the SmartNode without any "calls" being dropped or lost.

In a demonstration using recorded data, the system tracked two students moving around UF's Reitz Student Union North Lawn, their whereabouts visible on an aerial map displayed on a laptop. The students also demonstrated the panic button and instant messaging live.

Significant technical hurdles remain -- especially the system's relatively short range. The radio signals are weak, meaning the SmartNode has to be located within about a mile of the FieldUnits, even less if the terrain is mountainous or contains other large obstacles. Although this problem could be solved using multiple SmartNodes, another idea is to place the nodes atop airborne drones, which could circle the area containing the soldiers or firefighters to enable their communications.

The students said they spent 20 to 30 hours weekly working on the project since the start of the semester. The project differed from engineering classes because the work was so applied, they said.

"It was tough at times, but when the final product is a representation of our planning, design and hard work, it's well worth it," said electrical and computer engineering senior Michael Kessler.

The other students in the "Florida Flamers" team were William Goh, Zachery Jacobson, Julie Ramirez, Adnan Rashid and Andrew Sciullo.

Source: University of Florida

Computers expose the physics of NASCAR
It's an odd combination of Navier-Stokes equations and NASCAR driving. Computer scientists at the University of Washington have developed software that is incorporated in new technology allowing television audiences to instantaneously see how air flows around speeding cars.
Helping human and robot firefighters work as a team
Imagine a firefighter scrambling through a burning building, searching for survivors of a devastating explosion. Injured people on the far side of a brick wall, but out of reach. However, the partner on the other side promptly smashes through the wall, clears a path so both can help the survivors. Science fiction perhaps? No, this is exactly the scenario that partners in the PELOTE project have been working on.
Petascale climate modeling heats up
The development of powerful supercomputers capable of analyzing decades of data in the blink of an eye mark a technological milestone capable of bringing comprehensive changes to science, medicine, engineering, and business worldwide. Researchers at the University of Miami's Rosenstiel School of Marine and Atmospheric Science, collaborating with NCAR (National Center for Atmospheric Research), COLA (Center for Ocean-Land-Atmospheric Studies) and the University of California at Berkeley are utilizing a $1.4M award from the National Science Foundation (NSF) to generate new "petascale" computer models depicting detailed climate dynamics, and building the foundation for the next generation of complex climate models.
Scientists grow 'nanonets' able to snare added energy transfer
Using two abundant and relatively inexpensive elements, Boston College chemists have produced nanonets, a flexible webbing of nano-scale wires that multiplies surface area critical to improving the performance of the wires in electronics and energy applications.
Western Transportation Institute to study drowsy and distracted teen driving
Over the next year, researchers at Montana State University's Western Transportation Institute will use state-of-the-art video cameras to help teenage drivers stay safe on the state's rural roads.
Measuring the auditory dynamics of selective attention
Call it the cocktail party effect: how an individual can participate in a one-on-one conversation within a cluster of people, switch to another, pick up important comments while tuning out others, change topics and return to the first conversation.
New data center architecture from commodity network elements
Computer scientists at the UC San Diego's Jacobs School of Engineering have proposed a new way to build data centers that could save companies money and deliver more computing capability to end-users.
Biodegradable polymers show promise for improving treatment of acute inflammatory diseases
A family of biodegradable polymers called polyketals and their derivatives may improve treatment for such inflammatory illnesses as acute lung injury, acute liver failure and inflammatory bowel disease by delivering drugs, proteins and snips of ribonucleic acid to disease locations in the body.

New system tracks firefighters, special forces

Related stories:

News discussion: