A Battery-Free Sensor for Underwater Exploration
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Researchers have developed a battery-free underwater communication system that uses near-zero power to transmit sensor data. The system could be used to monitor sea temperatures to study climate change and track marine life over long periods -- and even sample waters on distant planets.
To investigate the vastly unexplored oceans covering most our planet, researchers aim to build a submerged network of interconnected sensors that send data to the surface -- an underwater "internet of things." But how to supply constant power to scores of sensors designed to stay for long durations in the ocean's deep?
MIT researchers have an answer: a battery-free underwater communication system that uses near-zero power to transmit sensor data. The system could be used to monitor sea temperatures to study climate change and track marine life over long periods -- and even sample waters on distant planets. They are presenting the system at the SIGCOMM conference this week, in a paper that has won the conference's "best paper" award.
The system makes use of two key phenomena. One, called the "piezoelectric effect," occurs when vibrations in certain materials generate an electrical charge. The other is "backscatter," a communication technique commonly used for RFID tags, that transmits data by reflecting modulated wireless signals off a tag and back to a reader.
In the researchers' system, a transmitter sends acoustic waves through water toward a piezoelectric sensor that has stored data. When the wave hits the sensor, the material vibrates and stores the resulting electrical charge. Then the sensor uses the stored energy to reflect a wave back to a receiver -- or it doesn't reflect one at all. Alternating between reflection in that way corresponds to the bits in the transmitted data: For a reflected wave, the receiver decodes a 1; for no reflected wave, the receiver decodes a 0.
"Once you have a way to transmit 1s and 0s, you can send any information," says co-author Fadel Adib, an assistant professor in the MIT Media Lab and the Department of Electrical Engineering and Computer Science and founding director of the Signal Kinetics Research Group. "Basically, we can communicate with underwater sensors based solely on the incoming sound signals whose energy we are harvesting."
The researchers demonstrated their Piezo-Acoustic Backscatter System in an MIT pool, using it to collect water temperature and pressure measurements. The system was able to transmit 3 kilobytes per second of accurate data from two sensors simultaneously at a distance of 10 meters between sensor and receiver.
[...] Next, the researchers aim to demonstrate that the system can work at farther distances and communicate with more sensors simultaneously. They're also hoping to test if the system can transmit sound and low-resolution images.
Source: https://www.sciencedaily.com/releases/2019/08/190820101452.htm
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