Shielding and securing integrated circuits with sensors

Shahrjerdi, Davood; Rajendran, Jeyavijayan; Garg, Siddharth; Koushanfar, Farinaz; Karri, Ramesh

doi:10.1109/iccad.2014.7001348

Cited by 35 publications

(14 citation statements)

References 16 publications

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“…Smart factories consist of several cyberphysical production systems (CPPS), which consist of electronics (e.g., processor and memory) and monitors that control physical processes through sensors and actuators (cf. Figure 2) [61]. The electronics are driven by software (e.g., embedded operating systems and applications) and interact with humans and other CPPS through various network connections (e.g., Ethernet or WiFi).…”

Section: Attack Surfacesmentioning

confidence: 99%

Security and privacy challenges in industrial internet of things

Sadeghi

Wachsmann

Waidner

2015

Proceedings of the 52nd Annual Design Automation Conference

703

345

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Today, embedded, mobile, and cyberphysical systems are ubiquitous and used in many applications, from industrial control systems, modern vehicles, to critical infrastructure. Current trends and initiatives, such as Industrie 4.0 and Internet of Things (IoT), promise innovative business models and novel user experiences through strong connectivity and effective use of next generation of embedded devices. These systems generate, process, and exchange vast amounts of security-critical and privacy-sensitive data, which makes them attractive targets of attacks. Cyberattacks on IoT systems are very critical since they may cause physical damage and even threaten human lives. The complexity of these systems and the potential impact of cyberattacks bring upon new threats. This paper gives an introduction to Industrial IoT systems, the related security and privacy challenges, and an outlook on possible solutions towards a holistic security framework for Industrial IoT systems

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Section: Attack Surfacesmentioning

confidence: 99%

Security and privacy challenges in industrial internet of things

Sadeghi

Wachsmann

Waidner

2015

Proceedings of the 52nd Annual Design Automation Conference

703

345

View full text Add to dashboard Cite

show abstract

“…Such threats have profound commercial, legal, safety and social implications. A smart manufacturing system may co mprise several cyber physical production systems (CPPs), which involve monitoring hardware and software co mponents as integrated circuits [10]. Based on the software interactions with humans and CPPs and the involved different communicat ion protocols, such hardware is exposed to physical attacks, including invasive hardware attacks, side-channel attacks and reverse engineering attacks [11].…”

Section: Iot Security Challenges In Manufacturing Environme Ntsmentioning

confidence: 99%

New Threats for Old Manufacturing Problems: Secure IoT-Enabled Monitoring of Legacy Production Machinery

Tedeschi¹,

Emmanouilidis²,

Farnsworth³

et al. 2017

Advances in Production Management Systems. The Path to Intelligent, Collaborative and Sustainable Manufacturing

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The digitization of manufacturing through the introduction of Industrie 4.0 technologies creates additional business opportunities and technical challenges. The integration of such technologies on legacy production machinery can upgrade them to become part of the digital and smart manufacturing environment. A typical example is that of industrial monitoring and maintenance, which can benefit from internet of things (IoT) solutions. This paper presents the development of an-IoT-enabled monitoring solution for machine tools as part of a remote maintenance approach. While the technical challenges pertaining to the development and integration of such solutions in a manufacturing environment have been the subject of relevant research in the literature, the corresponding new security challenges arising from the introduction of such technologies have not received equal attention. Failure to adequately handle such issues is a key barrier to the adoption of such solutions by industry. This paper aims to assess and classify the security aspects of integrating IoT technology with monitoring systems in manufacturing environments and propose a systematic view of relevant vulnerabilities and threats by taking an IoT architecture point of view. Our analysis has led to proposing a novel modular approach for secure IoT-enabled monitoring for legacy production machinery. The introduced approach is implemented on a case study of machine tool monitoring, highlighting key findings and issues for further research.

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“…One can use nanoelectronic mechanical switches (NEMS) to thwart reverse engineering of a chip [66]. NEMS devices convert an external mechanical vibration into electrical energy through the piezoelectric effect.…”

Section: Other Nanotdcsmentioning

confidence: 99%

“…Side-view of a chip using NEMS/MEMS-based devices to detect mechanical attacks[66]. The inset shows the structure of a NEMS/MEMS cantilever.…”

mentioning

confidence: 99%

Nano Meets Security: Exploring Nanoelectronic Devices for Security Applications

et al. 2015

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Among the components that can fortify computer security there is a relatively new entrant known as the memristor (contraction of memory resistor).ABSTRACT | Information security has emerged as an important system and application metric. Classical security solutions use algorithmic mechanisms that address a small subset of emerging security requirements, often at high-energy and performance overhead. Further, emerging side-channel and physical attacks can compromise classical security solutions. Hardware security solutions overcome many of these limitations with less energy and performance overhead. Nanoelectronics-based hardware security preserves these advantages while enabling conceptually new security primitives and applications. This tutorial paper shows how one can develop hardware security primitives by exploiting the unique characteristics such as complex device and system models, bidirectional operation, and nonvolatility of emerging nanoelectronic devices. This paper then explains the security capabilities of several emerging nanoelectronic devices: memristors, resistive random-access memory, contact-resistive random-access memory, phase change memories, spin torque-transfer random-access memory, orthogonal spin transfer random access memory, graphene, carbon nanotubes, silicon nanowire field-effect transistors, and nanoelectronic mechanical switches. Further, the paper describes hardware security primitives for authentica-tion, key generation, data encryption, device identification, digital forensics, tamper detection, and thwarting reverse engineering. Finally, the paper summarizes the outstanding challenges in using emerging nanoelectronic devices for security.In this paper, we refer a non-CMOS, nanoscale, emerging technology device as a nanoelectronic device. 0018-9219

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Shielding and securing integrated circuits with sensors

Cited by 35 publications

References 16 publications

Security and privacy challenges in industrial internet of things

Security and privacy challenges in industrial internet of things

New Threats for Old Manufacturing Problems: Secure IoT-Enabled Monitoring of Legacy Production Machinery

Nano Meets Security: Exploring Nanoelectronic Devices for Security Applications

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