DNS-Sensor: A Sensor-Driven Architecture for Real-Time DNS Cache Poisoning Detection and Mitigation. [PDF]
Sensors (Basel)Yu H +5 more
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Descriptive Analysis of Periodontitis Case Detection and Selected Comorbidities in Danish Private Dental Practices. [PDF]
J Clin PeriodontolKaur S +7 more
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Deconstructing Chirality: Probing Local and Nonlocal Effects in Azobenzene Derivatives with X-ray Circular Dichroism. [PDF]
J Phys Chem LettKhanna A +7 more
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A Comprehensive and Unified Survey on Blockchain-Enabled SDN Cybersecurity: Industry Use Cases, Threat Landscapes, Defense Architectures, and Open Challenges. [PDF]
Sensors (Basel)Dudukcu D +4 more
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RNN-based detection of IoT malware using diverse feature engineering methods. [PDF]
Sci RepAbd-Ellah MK +3 more
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E-PTES-S: Enhanced Trust Evaluation via Multidimensional Spatiotemporal Fusion and Variance-Based Stability Sequence Extraction in IoT Sensing Networks. [PDF]
Sensors (Basel)Liu J +5 more
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Towards Tight Random Probing Security [PDF]
, 2021 Proving the security of masked implementations in theoretical models that are relevant to practice and match the best known attacks of the side-channel literature is a notoriously hard problem. The random probing model is a promising candidate to contribute to this challenge, due to its ability to capture the continuous nature of physical leakage ...
Gaëtan Cassiers +3 more
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Algebraic Decomposition for Probing Security
Lecture Notes in Computer Science, 2015The probing security model is very popular to prove the side-channel security of cryptographic implementations protected by masking. A common approach to secure nonlinear functions in this model is to represent them as polynomials over a binary field and to secure their nonlinear multiplications thanks to a method introduced by Ishai, Sahai and Wagner ...
Claude Carlet +2 more
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Probing the Security of DNA Origami
2018 IEEE International Symposium on Software Reliability Engineering Workshops (ISSREW), 2018 DNA origami is a method used to program the self-assembly of nanoscale computational systems. The contribution of this paper is to probe the security of a canonical DNA origami that is often reused. The paper describes the techniques we used to design probes whose input targets the origami systems' integrity.
Chase Koehler +3 more
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