Aviation enhancements, better biosensors could result from new sensor technology

The research team created a new sensing technology platform by using adaptive metamaterial concepts. The platform creates a hybrid wave concentration mechanism through the material's ability to further tune the signal and using electric signal amplification provided by a set of circuits connected to an array of sensors. Credit: Ryan Owens, MU College of Engineering

Piezoelectric sensors measure changes in pressure, acceleration, temperature, strain or force and are used in a vast array of devices important to everyday life.

However, these sensors often can be limited by the “white noise” they detect that can give engineers and health care workers false readings. Now, a University of Missouri College of Engineering research team has developed methods to enhance piezoelectric sensing capabilities. Enhanced sensors could be used to improve aviation, detect structural damage in buildings and bridges, and boost the capabilities of health monitors.

Guoliang Huang, an associate professor of mechanical and aerospace engineering in the MU College of Engineering, and his team's new platform improves sensors by amplifying the signal, allowing the same amount of sensors to read more data. Their new device also cuts costs by allowing fewer sensors to cover larger structures and longer distances.

“In the past, methods to produce signal intensification only have included electrical amplification,” Huang said. “Our technique uses a combination of mechanical and electrical amplification, overcoming the limitations of using just electrical amplification.”

The new sensing platform can be “tuned” using an electric signal, which when connected to circuit boards with sensors can pick up weaker signals that previously could not be detected.

“The amplified wave cuts through the surrounding noise,” Huang said. “It's the first such device that illustrates how to use adaptive metamaterials to improve elastic wave sensing capabilities. This can be very useful to developing high-sensitivity sensing technology.”

“Enhanced flexural wave sensing by adaptive gradient-index metamaterials,” was published in Scientific Reports a journal of Nature. Funding for the project was provided by the U.S. Air Force Office of Scientific Research (AF 9550-15-1-0061). Byung-Lip (Les) Lee served as the program manager. The content is solely the responsibility of the authors and does not necessarily represent the official views of the funding agency.

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Editor's Note: For more on the story, please see: http://engineering.missouri.edu/2016/11/paper-illustrates-researchers-can-boost-flexural-wave-sensing/

For more on Huang's previous research, please see: http://munews.missouri.edu/news-releases/2015/0122-scientists-%E2%80%98bend%E2%80%99-acoustic-and-elastic-waves-with-new-metamaterials-that-could-have-commercial-applications/

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