New Delhi: Even though password formats for smartphones differ in concepts – alphabetical, numeric, fingerprint, and the latest being the facial recognition feature – they are certainly evolving in order to make it more secure.
In a new development for smartphones and other wearable devices, scientists have proposed a new biometric-based authentication approach that uses your body sweat to help you safely unlock your device.
The proposal made by researchers at University in Albany in the US relies on analysing skin secretions – or sweat – to build an amino acid profile that is unique to the devices' owner.
The profile would be stored within the device and used for identification purposes each time an attempt to unlock is made, researchers said.
"We are developing a new form of security that could completely change the authentication process for electronic devices," said Jan Halamek, an assistant professor at the University at Albany.
"Using sweat as an identifier cannot be easily mimicked/hacked by potential intruders. It is close to full- proof," Halamek said.
Skin secretions contain many small molecules – or metabolites – that can each be targeted for authentication analysis.
To build a profile, the device would first have a "monitoring period" in which it would continuously measure its owner's sweat levels at various times of the day.
Once the profile is developed, the owner would be identified once holding the device/wearing it.
The approach would not only improve on current authentication methods, but also help people with certain disabilities, who may be unable to move their fingers in a specific position to open the device or have a caretaker who is unlocking the device without permission.
The device owner would also not have to remember a passcode, researchers said.
"The current forms of authentication have proven to be less than ideal," said Halamek, who led the study published in the journal ChemPhysChem.
"Passwords and pins can easily be seen over someone's shoulder and there are many internet tutorials on how to create a fingerprint mold that is capable of opening a device. There is also issues with facial recognition, which often times does not work correctly," said Halamek.
Halamek has tested the analysis in his lab with success. The next step is to collaborate with engineers who can help with implementation.
(With PTI inputs)