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학술대회 Balance between Performance and Security in IPI-based Key Schemes using Heartbeats
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저자
조관태, 김주영
발행일
201711
출처
International Conference on Signal Processing Systems (ICSPS) 2017, pp.1-5
DOI
https://dx.doi.org/10.1145/3163080.3163111
협약과제
17HS1600, 인체탐구기반의 청색 IT 창의도전 연구, 조일연
초록
The heartbeat interval is known to be random and unique to each individual. For secure communication between biometric sensors (e.g., attachable/implantable medical devices) within a body area network, various IPI-based key agreement schemes have been recently proposed in which such cardiac cycles are a source of trust. However, such existing works were difficult to compare fairly due to various error correction rates, different security strengths and key agreement times. For this reason, we roughly classify the existing IPI-based key agreement schemes into two types according to whether or not all (Type 1) or some (Type 2) of the output bits of the error correction code are transmitted. In this paper, we analyze the characteristics of each classified type and then we find out that Type II provides generates the secret key relatively quickly under a valid security strength in an emergency situation.
키워드
Biometric information, Key agreement, Physiological signal, Security
KSP 제안 키워드
Biometric information, Biometric sensors, Body Area Networks(BANs), Error correction code, Heartbeat interval, Implantable medical devices, Physiological signals, Secure Communication, Security strength, Type 1, Type 2