Substrate Computing Bridge defects

Three Michigan State Uniwireless-sensors-1versity College of Engineering researchers are developing a new technology known as substrate computing. This will allow sensing, communication and diagnostic computing, all within the substrate – the building material – of a structure, using energy harvested from the structure itself. The idea of the researchers is to have a situation where a bridge or a dam could sense a structural defect before it happens, diagnose what the problem will be and alert the authorities before something bad happens.

According to the head of the research team, Subir Biswas, professor of electrical and computer engineering, “The goal is to install sensors that continuously monitor and report on the structure’s integrity, using new sensor-network technology.

He further said “Adoption of such monitoring has previously been limited because of the frequency of battery replacement for battery-powered sensors,” he said, “as well as the need for a separate communication subsystem usually involving radio frequency sensor networks.”
A research team of Biswas; Rigoberto Burgueno, professor of civil and environmental engineering; and Shantanu Chakrabartty, professor of computer science and engineering from Washington University at St. Louis, are developing this new technology.

“Our research is in the area of smart modular substrates with embedded sensing, communication and computing, that use advancements in mechanical energy harvesting and ultrasound communications to make it a reality,” Biswas said.

In the future, this technology will be routinely used in building materials, so that structures such as bridges and buildings will be able to detect and diagnose potential problems without the need for an external energy source and a separate wireless sensor network. The goal is to integrate all these functions within a tiny 3 millimeters-by-3 millimeters electronic chip, wwireless-sensors-3hich can be embedded within the material of a structure.

“These electronic chips, with MSU-patented technology, will be capable of detecting the nature of a fault, send the fault information through the structure material itself and compute the fault pattern across the entire structure,” Biswas said.

This research is funded by the National Science Foundation, including a recent $1 million grant and expected to be commercially available in five years.
Source
Michigan State University