Towards the era of wireless keys: How the IoT can change authentication paradigm

“…Since smart cards are not tamper proof, these schemes are often vulnerable to several physical attacks. On the other hand, recently a few interesing PUF-based authentication schemes have been proposed for IoT systems [3][4][5][6]. However, most of them are based on computationally inefficient public key systems.…”

Lightweight and Privacy-Preserving Two-Factor Authentication Scheme for IoT Devices

“…Since smart cards are not tamper proof, these schemes are often vulnerable to several physical attacks. On the other hand, recently a few interesing PUF-based authentication schemes have been proposed for IoT systems [3][4][5][6]. However, most of them are based on computationally inefficient public key systems.…”

Lightweight and Privacy-Preserving Two-Factor Authentication Scheme for IoT Devices

“…Additionally, Lu et al [13] propose a two-factor mutual authentication scheme for smart-living devices, with a session key agreement mechanism. It uses the Another trending focus is ensuring authentication schemes remain lightweight, such as the work by Petrov et al [20], which presents a many-to-many authentication scheme, based on passive NFC tags which store encrypted passphrases for each service used. The scheme ensures the passphrases can only be decrypted by the service for which it was intended to be used with.…”

Secure proximity-based identity pairing using an untrusted signalling service

“…Originally suggested for Internet-of-Thins [13] and nano-scale networks, the THz frequency channel has shown much higher capacity, comparing to molecularbased solutions [14]. Also, compared to smaller frequencies it has been shown to provide significantly higher rates for the 0.1 − 10THz band: several Tbps at the distance of few millimetres [1].…”

Performance comparison of selected wired and wireless networks on chip architectures