Generic Parity-Based Concurrent Error Detection for Lightweight ARX Ciphers

Bauer, Sergei; Raß, Stefan; Schartner, Peter

doi:10.1109/access.2020.3010555

Cited by 8 publications

(2 citation statements)

References 21 publications

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“…Fault attacks target lightweight ciphers by intentionally introducing faults during their execution of the algorithm. The aim is to exploit vulnerabilities and extract sensitive information [242,243]. These attacks are targeted to breach the security and integrity of cipher.…”

Section: Lightweight Ciphers Fault Detectionmentioning

confidence: 99%

Smartphone Security and Privacy: A Survey on APTs, Sensor-Based Attacks, Side-Channel Attacks, Google Play Attacks, and Defenses

et al. 2023

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There is an exponential rise in the use of smartphones in government and private institutions due to business dependencies such as communication, virtual meetings, and access to global information. These smartphones are an attractive target for cybercriminals and are one of the leading causes of cyber espionage and sabotage. A large number of sophisticated malware attacks as well as advanced persistent threats (APTs) have been launched on smartphone users. These attacks are becoming significantly more complex, sophisticated, persistent, and undetected for extended periods. Traditionally, devices are targeted by exploiting a vulnerability in the operating system (OS) or device sensors. Nevertheless, there is a rise in APTs, side-channel attacks, sensor-based attacks, and attacks launched through the Google Play Store. Previous research contributions have lacked contemporary threats, and some have proven ineffective against the latest variants of the mobile operating system. In this paper, we conducted an extensive survey of papers over the last 15 years (2009–2023), covering vulnerabilities, contemporary threats, and corresponding defenses. The research highlights APTs, classifies malware variants, defines how sensors are exploited, visualizes multiple ways that side-channel attacks are launched, and provides a comprehensive list of malware families that spread through the Google Play Store. In addition, the research provides details on threat defense solutions, such as malware detection tools and techniques presented in the last decade. Finally, it highlights open issues and identifies the research gap that needs to be addressed to meet the challenges of next-generation smartphones.

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Section: Lightweight Ciphers Fault Detectionmentioning

confidence: 99%

Smartphone Security and Privacy: A Survey on APTs, Sensor-Based Attacks, Side-Channel Attacks, Google Play Attacks, and Defenses

et al. 2023

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“…Lightweight ciphers are vulnerable to fault attacks, which purposefully introduce errors into the algorithm's execution to reveal sensitive information. Attackers intend to use these flaws as entry points to steal private data [97,103]. This type of attack is specifically designed to compromise cipher security.…”

Section: Fault Attack On Lightweight Ciphersmentioning

confidence: 99%

Medical Image Encryption: A Comprehensive Review

et al. 2023

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In medical information systems, image data can be considered crucial information. As imaging technology and methods for analyzing medical images advance, there will be a greater wealth of data available for study. Hence, protecting those images is essential. Image encryption methods are crucial in multimedia applications for ensuring the security and authenticity of digital images. Recently, the encryption of medical images has garnered significant attention from academics due to concerns about the safety of medical communication. Advanced approaches, such as e-health, smart health, and telemedicine applications, are employed in the medical profession. This has highlighted the issue that medical images are often produced and shared online, necessitating protection against unauthorized use.

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