We present CardioID, an approach to extract features from heart rate variability for secure pairing keys that change with the randomness inherited in heart operation. Our processing chain is compatible with electrocardiogram (ECG, voltage), as well as ballistocardiogram (BCG, acceleration) type signals.
Dec 2, 2022
Dec 14, 2022 · Interaction-free device pairing generates body-implicit secure keys that exploit the randomness in the heart's oper- ation (ECG or BCG signals).
CardioID is presented, an approach to extract features from heart rate variability for secure pairing keys that change with the randomness inherited in ...
Dec 2, 2022 · We propose a quantization to derive secure keys for cross BCG-ECG device pairing from heart-rate variability and analyze the performance in ( ...
BCG-to-ECG subject similarity on laboratory data. CardioID: Secure ECG-BCG agnostic interaction-free device pairing. Article. Full-text available. Jan 2022.
Media type: E-Article ; Title: CardioID: Secure ECG-BCG Agnostic Interaction-Free Device Pairing ; Contributor: Zuo, Si; Sigg, Stephan; Nguyen, Le Ngu; Beck, Nils ...
BCG & ECG-based secure communication for medical devices in Body Area Networks ... CardioID: Secure ECG-BCG Agnostic Interaction-Free Device Pairing. S Zuo, S ...
Apr 25, 2024 · CardioID: Secure ECG-BCG Agnostic Interaction-Free Device Pairing. ... BCG & ECG-based secure communication for medical devices in Body ...
Publikationer · CardioID: Secure ECG-BCG Agnostic Interaction-Free Device Pairing ...
CardioID: Secure ECG-BCG agnostic interaction-free device pairing. Article ... We propose a quantization to derive secure keys for cross BCG-ECG device pairing ...