The smart access system called VibWrite allows user verification when fingers touch any solid surface.
Developed by researchers at Rutgers University in the US, the system integrates passcode, behavioural and physiological characteristics. It builds on a touch-sensing technique by using vibration signals.
The system is different from traditional, password-based approaches, as well as behavioural biometrics-based solutions, which typically involve touch screens, fingerprint readers or other costly hardware and lead to privacy concerns and "smudge attacks" that trace oily residues on surfaces from fingers.
"Smart access systems that use fingerprinting and iris- recognition are very secure, but they are probably more than 10 times as expensive as our VibWrite system, especially when you want to widely deploy them," said Chen.
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The authentication process can be performed on any solid surface beyond touch screens and on any screen size.
It also resists several other types of attacks, including when an attacker learns passcodes after observing a user multiple times.
A great benefit is that a VibWrite system is low-cost and uses minimal power. It includes an inexpensive vibration motor and receiver, and it can turn any solid surface into an authentication surface.
Both hardware installation and maintenance are easy, and "VibWrite probably could be commercialised in a couple of years," Chen said.
During two trials, VibWrite verified legitimate users with more than 95 per cent accuracy and the false positive rate was less than three per cent.
To improve performance, the team will deploy multiple sensor pairs, refine the hardware and upgrade authentication algorithms.
They also need to further test the system outdoors to account for varying temperatures, humidity, winds, wetness, dust, dirt and other conditions.
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