The Experts below are selected from a list of 3 Experts worldwide ranked by ideXlab platform
Luigi V Mancini - One of the best experts on this subject based on the ideXlab platform.
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radis remote attestation of distributed iot Services
arXiv: Cryptography and Security, 2019Co-Authors: Mauro Conti, Edlira Dushku, Luigi V ManciniAbstract:Remote attestation is a security technique through which a remote trusted party (i.e., Verifier) checks the trust-worthiness of a potentially untrusted device (i.e., Prover). In the Internet of Things (IoT) systems, the existing remote attestation protocols propose various approaches to detect the modified software and physical tampering attacks. However, in an inter-operable IoT system, in which IoT devices interact autonomously among themselves, an additional problem arises: a compromised IoT Service can influence the genuine operation of other Invoked Service, without changing the software of the latter. In this paper, we propose a protocol for Remote Attestation of Distributed IoT Services (RADIS), which verifies the trust-worthiness of distributed IoT Services. Instead of attesting the complete memory content of the entire interoperable IoT devices, RADIS attests only the Services involved in performing a certain functionality. RADIS relies on a control-flow attestation technique to detect IoT Services that perform an unexpected operation due to their interactions with a malicious remote Service. Our experiments show the effectiveness of our protocol in validating the integrity status of a distributed IoT Service.
Mauro Conti - One of the best experts on this subject based on the ideXlab platform.
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radis remote attestation of distributed iot Services
arXiv: Cryptography and Security, 2019Co-Authors: Mauro Conti, Edlira Dushku, Luigi V ManciniAbstract:Remote attestation is a security technique through which a remote trusted party (i.e., Verifier) checks the trust-worthiness of a potentially untrusted device (i.e., Prover). In the Internet of Things (IoT) systems, the existing remote attestation protocols propose various approaches to detect the modified software and physical tampering attacks. However, in an inter-operable IoT system, in which IoT devices interact autonomously among themselves, an additional problem arises: a compromised IoT Service can influence the genuine operation of other Invoked Service, without changing the software of the latter. In this paper, we propose a protocol for Remote Attestation of Distributed IoT Services (RADIS), which verifies the trust-worthiness of distributed IoT Services. Instead of attesting the complete memory content of the entire interoperable IoT devices, RADIS attests only the Services involved in performing a certain functionality. RADIS relies on a control-flow attestation technique to detect IoT Services that perform an unexpected operation due to their interactions with a malicious remote Service. Our experiments show the effectiveness of our protocol in validating the integrity status of a distributed IoT Service.
Edlira Dushku - One of the best experts on this subject based on the ideXlab platform.
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radis remote attestation of distributed iot Services
arXiv: Cryptography and Security, 2019Co-Authors: Mauro Conti, Edlira Dushku, Luigi V ManciniAbstract:Remote attestation is a security technique through which a remote trusted party (i.e., Verifier) checks the trust-worthiness of a potentially untrusted device (i.e., Prover). In the Internet of Things (IoT) systems, the existing remote attestation protocols propose various approaches to detect the modified software and physical tampering attacks. However, in an inter-operable IoT system, in which IoT devices interact autonomously among themselves, an additional problem arises: a compromised IoT Service can influence the genuine operation of other Invoked Service, without changing the software of the latter. In this paper, we propose a protocol for Remote Attestation of Distributed IoT Services (RADIS), which verifies the trust-worthiness of distributed IoT Services. Instead of attesting the complete memory content of the entire interoperable IoT devices, RADIS attests only the Services involved in performing a certain functionality. RADIS relies on a control-flow attestation technique to detect IoT Services that perform an unexpected operation due to their interactions with a malicious remote Service. Our experiments show the effectiveness of our protocol in validating the integrity status of a distributed IoT Service.
