This week, French magazine Le Point reports on an alarming series of cyberattacks currently being conducted in France against major companies, such as Bayard, Cultura and Boulanger. Faced with this constantly evolving threat, it is crucial to adopt robust security solutions that protect data and infrastructures against these attacks.
It is in such contexts that the technology developed by Veintree SAS stands out, as it offers an innovative approach to securing authentication data. Upon enrolment, Veintree’s technology transforms biometric authentication information into unique and anonymous mathematical locks, which are distinct for each application to be protected. These digital locks offer several layers of unassailable protection: even if hackers would have been successful in attacking an authentication server, they can neither exploit them elsewhere nor reuse them on other sites.
To unlock these digital locks, only the part of the body that was used to create the lock can act as a key. What's more, each digital key is unique, and its parameters change each time it is used, thus making its later reuse impossible.
Inspired by biometrics, but without the risks nor the constraints, Veintree’s authentication technology is based on sound mathematical principles and can be applied to both institutions and individuals. With this mathematical approach, data is encrypted throughout the chain, thereby protecting it from identification, storage, and subsequent compromise or reuse. It even resists against the threats posed by future quantum computation based attacks.