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A Low-Power Dual-Factor Authentication Unit for Secure Implantable Devices

Saurav Maji, Utsav Banerjee, Samuel H. Fuller, Mohamed R. Abdelhamid, Phillip M. Nadeau, Rabia Tugce Yazicigil, Anantha P. Chandrakasan

202022 citationsDOIOpen Access PDF

Abstract

This paper presents a dual-factor authentication protocol and its low-power implementation for security of implantable medical devices (IMDs). The protocol incorporates traditional cryptographic first-factor authentication using Datagram Transport Layer Security - Pre-Shared Key (DTLS-PSK) followed by the user's touch-based voluntary second-factor authentication for enhanced security. With a low-power compact always-on wake-up timer and touch-based wake-up circuitry, our test chip consumes only 735 pW idle state power at 20.15 Hz and 2.5 V. The hardware accelerated dual-factor authentication unit consumes 8 μW at 660 kHz and 0.87 V. Our test chip was coupled with commercial Bluetooth Low Energy (BLE) transceiver, DC-DC converter, touch sensor and coin cell battery to demonstrate standalone implantable operation and also tested using in-vitro measurement setup.

Topics & Concepts

Embedded systemAuthentication (law)Computer scienceAuthentication protocolDatagramBluetoothComputer networkTimerCryptographyProtocol (science)Key (lock)Computer hardwareCryptographic protocolTransport Layer SecurityMobile deviceKey exchangeEngineeringComputer securityChipIdleAuthenticated encryptionSerial portWirelessMessage authentication codeState (computer science)Universal asynchronous receiver/transmitterUser Datagram ProtocolApplication layerSystem on a chipBattery (electricity)Power (physics)Public-key cryptographyModbusForward secrecyPayload (computing)Link layerStandby powerControl unitWireless Body Area NetworksNeuroscience and Neural EngineeringElectrostatic Discharge in Electronics
A Low-Power Dual-Factor Authentication Unit for Secure Implantable Devices | Litcius