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By U.S. Naval Research Laboratory Corporate Communications
Using an advanced radar, experts at the U.S. Naval Research Laboratory developed ways to detect subtle vibration changes in moving targets.
Sensing vibrations with a millimeter wave radar essentially gives radar operators the ability to “hear” what a target is doing.
“We’ve taken vibration sensing and what we are effectively able to do now is use it as a remote sensing technique for radar. You don’t have to be close and things don’t have to be still,” said Christopher Rodenbeck, electrical engineer in NRL’s Radar Division. “For example, many people, both military and civilian, use radar to take SAR (synthetic-aperture radar) images of the ground from space. Now we can add sound as another dimension and know what sound an object in the image is making.”
Millimeter wave radar uses electromagnetic waves between one and 10 millimeters with radio frequencies between 30 and 300 gigahertz, and has inherently high accuracy and resolution. The lower power system Rodenbeck’s team used is capable of detecting a one square meter target approximately 10 kilometers away.
“The ability to reproduce sound for moving targets using radar is a totally new first step and we can do it very accurately,” Rodenbeck said. “We developed these techniques to analyze the motion of moving targets at long range, which people haven’t done before.”
The heart of this new radar capability is a new, patent pending algorithm. Rodenbeck’s team devised the new algorithm to translate the small, but detectable vibrations from a vehicle into sounds which can be characterized and measured.
One example of the use of this vibrometry technique is in parked cars, which could provide real-time information to drivers of other vehicles.
In a published paper, Rodenbeck described how his use of millimeter wave radar could help identify what other cars are doing in order to prevent an accident.
“We showed that if the muffler is vibrating, we can tell if a parked car is on or not. If that car is about to go into gear, we can detect a strong impulse vibration from the gear change,” Rodenbeck said. “We can also easily tell whether the car door is opening or closing. Others have shown that a major cause of accidents is the misunderstanding about what parked cars are actually doing.”
While radars have been used in cars for years, Rodenbeck believes simple software modifications to current automotive radars would enable safety upgrades in today’s generation of vehicles and the future fleet of driverless cars.
“It’s very easy to do this with current integrated circuit technology, so from a technological standpoint, this is not hard,” Rodenbeck said.
NRL researchers have developed expertise with millimeter wave technology over decades of work, delivering long-range and robust target recognition capabilities in air, space, and maritime environments.
“Millimeter wave radar can see things that can’t be seen at other frequencies and can’t be seen optically,” said Michael Walder, superintendent of NRL’s Radar Division. “The whole objective is to be able to provide more information to an operator.”
Further information about this research can be found in IEEE’s Access journal.
About the U.S. Naval Research Laboratory
NRL is a scientific and engineering command dedicated to research that drives innovative advances for the Navy and Marine Corps from the seafloor to space and in the information domain. NRL headquarters is located in Washington, D.C., with major field sites in Stennis Space Center, Mississippi; Key West, Florida; and Monterey, California, and employs approximately 2,500 civilian scientists, engineers and support personnel.