Cross-medium eavesdropping technology overturns assumptions about underwater communications security

Celebrity Gig
Researchers from Princeton and MIT developed a way to intercept underwater messages from the air using radar, overturning long held assumptions about the security of underwater transmissions. Credit: Princeton University/Office of Engineering Communications

Researchers from Princeton and MIT have found a way to intercept underwater messages from the air, overturning long held assumptions about the security of underwater transmissions.

The team created a device that uses radar to eavesdrop on underwater acoustic signals, or sonar, by decoding the tiny vibrations those signals create on the water’s surface. In principle, the technique could also roughly identify the location of an underwater transmitter, the researchers said.

In a paper presented at ACM MobiCom on November 20, the researchers detailed the new eavesdropping technology and offered ways to guard against the attacks it enables. They demonstrated the capability on Lake Carnegie, a small artificial lake in Princeton. Applying the technology in the open ocean would be significantly more challenging, but the researchers said they believed it would be possible with significant engineering improvements.

The researchers said their intention is not only to alert people to the vulnerability of underwater transmissions, but also to detail methods that can be used to prevent interceptions.

“I’m hoping that some of the countermeasure strategies that we propose will be picked up by people who design acoustic transmitters for underwater communication,” said Yasaman Ghasempour, assistant professor of electrical and computer engineering and the study’s principal investigator.

Transmitting messages between underwater and airborne devices was considered technically infeasible until researchers from MIT developed a system to do so in 2018. But the MIT technique relied on cooperation between the air and sea parties—sharing data rates, frequencies and other key technical details in advance.

READ ALSO:  Eufy's new outdoor 4K security camera can run endlessly on solar power

At the time, it wasn’t clear whether this technique could be used to intercept private messages from non-cooperative underwater transmitters.

Collaborating with the MIT group, Ghasempour and her Princeton team explored the security implications of the technology and developed a way to decipher the same kinds of messages without knowing any of those technical details.

The researchers said the ability to intercept underwater communications from the air poses a wide array of security risks. They said an adversary could use the technology to intercept sensitive information transmitted by climate monitoring sensors, oil and gas rigs, and even submarines.

“This work shows that sensitive information can be leaked in ways that previously haven’t been considered,” said Poorya Mollahosseini, a graduate student at Princeton and the paper’s co-lead author with Sayed Saad Afzal, a graduate student at MIT.

Cross-medium eavesdropping technology overturns assumptions about underwater communications security
Researchers tested their eavesdropping system at Lake Carnegie in Princeton using only off-the-shelf, commercially available equipment, proving that it works in real-world environments. Credit: Princeton University/Poorya Mollahosseini

How are underwater communications protected?

The security of underwater communications relies heavily on the inability of sound traveling underwater to penetrate the surface, the researchers said. Signals that carry information are transmitted underwater as sound waves. Because water and air have very different densities, the water’s surface acts as a barrier for sound. When underwater sound waves hit the surface, they mostly just bounce off.

In 2018, the MIT group realized that the impact of the sound waves on the water’s surface leaves a sort of fingerprint of tiny vibrations that correspond to the underwater signal. The team used a radar mounted on a drone to read the surface vibrations and deployed algorithms to detect the pattern, decode the signal and extract the message.

READ ALSO:  Viasat takeover of UK rival Inmarsat faces in-depth competition probe

“Underwater-to-air communications is one of the most difficult long-standing problems in our field,” said Fadel Adib, associate professor of media arts and sciences at MIT and co-author on the new paper.

“It was exciting—and surprising—to see our method succeed in decoding underwater messages from the tiny vibrations they caused on the surface.”

But for the technique to work, the MIT team’s system required knowledge of certain physical parameters, such as the transmission’s frequency and modulation type, in advance.

Building on this development, the team at Princeton used a similar method to detect the surface vibrations, but developed new algorithms that capitalize on the differences between radar and sonar to uncover those physical parameters. That allowed the researchers to decode the message without cooperation from the underwater transmitter.

Using an inexpensive commercial drone and radar, the researchers tested their method in a swimming pool. The researchers deployed a speaker under the water and, as swimmers provided interference, flew a drone over the surface. The drone repeatedly sent brief radar chirps toward the water.

When the radar signals bounced off the water’s surface, they revealed the pattern of vibrations from the sound waves for the system to detect and decode.

READ ALSO:  How old, inefficient housing and time-of-use electricity rates are leaving some households worse off

The researchers also used a boom-mounted radar for tests in a real-world environment at Carnegie Lake in Princeton. They found that the system could figure out the unknown parameters and decode messages from the speaker, even with interference from wind and waves. In fact, it could determine the modulation type, one of the most important parameters, with 97.58% accuracy.

“We wanted to show that this could be done with off-the-shelf, basic equipment,” Ghasempour said. “Imagine what someone could do with a more sophisticated radar.”

They found that the design parameters of an underwater communication link greatly impact its susceptibility to such attacks. Some types of modulation, for example, are easier to figure out than others.

The paper provides recommendations on ways to design transmitters that are more resistant to eavesdropping. Ghasempour said that she hopes to follow up to provide more suggestions for ways to protect against these kinds of attacks.

More information:
Paper: SURF: Eavesdropping on Underwater Communications from the Air

Provided by
Princeton University


Citation:
Cross-medium eavesdropping technology overturns assumptions about underwater communications security (2024, November 22)
retrieved 24 November 2024
from

This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no
part may be reproduced without the written permission. The content is provided for information purposes only.

Categories

Share This Article
Leave a comment