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Authentication of Embedded Devices

Authentication of Embedded Devices
Author: Basel Halak
Publisher: Springer Nature
Total Pages: 192
Release: 2021-01-22
Genre: Technology & Engineering
ISBN: 3030607690
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This book provides comprehensive coverage of state-of-the-art integrated circuit authentication techniques, including technologies, protocols and emerging applications. The authors first discuss emerging solutions for embedding unforgeable identifies into electronics devices, using techniques such as IC fingerprinting, physically unclonable functions and voltage-over-scaling. Coverage then turns to authentications protocols, with a special focus on resource-constrained devices, first giving an overview of the limitation of existing solutions and then presenting a number of new protocols, which provide better physical security and lower energy dissipation. The third part of the book focuses on emerging security applications for authentication schemes, including securing hardware supply chains, hardware-based device attestation and GPS spoofing attack detection and survival. Provides deep insight into the security threats undermining existing integrated circuit authentication techniques; Includes an in-depth discussion of the emerging technologies used to embed unforgeable identifies into electronics systems; Offers a comprehensive summary of existing authentication protocols and their limitations; Describes state-of-the-art authentication protocols that provide better physical security and more efficient energy consumption; Includes detailed case studies on the emerging applications of IC authentication schemes.

Security in Embedded Devices

Security in Embedded Devices
Author: Catherine H. Gebotys
Publisher: Springer Science & Business Media
Total Pages: 301
Release: 2009-12-03
Genre: Technology & Engineering
ISBN: 1441915303
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Although security is prevalent in PCs, wireless communications and other systems today, it is expected to become increasingly important and widespread in many embedded devices. For some time, typical embedded system designers have been dealing with tremendous challenges in performance, power, price and reliability. However now they must additionally deal with definition of security requirements, security design and implementation. Given the limited number of security engineers in the market, large background of cryptography with which these standards are based upon, and difficulty of ensuring the implementation will also be secure from attacks, security design remains a challenge. This book provides the foundations for understanding embedded security design, outlining various aspects of security in devices ranging from typical wireless devices such as PDAs through to contactless smartcards to satellites.

Secure Smart Embedded Devices, Platforms and Applications

Secure Smart Embedded Devices, Platforms and Applications
Author: Konstantinos Markantonakis
Publisher: Springer Science & Business Media
Total Pages: 599
Release: 2013-09-14
Genre: Computers
ISBN: 1461479150
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New generations of IT users are increasingly abstracted from the underlying devices and platforms that provide and safeguard their services. As a result they may have little awareness that they are critically dependent on the embedded security devices that are becoming pervasive in daily modern life. Secure Smart Embedded Devices, Platforms and Applications provides a broad overview of the many security and practical issues of embedded devices, tokens, and their operation systems, platforms and main applications. It also addresses a diverse range of industry/government initiatives and considerations, while focusing strongly on technical and practical security issues. The benefits and pitfalls of developing and deploying applications that rely on embedded systems and their security functionality are presented. A sufficient level of technical detail to support embedded systems is provided throughout the text, although the book is quite readable for those seeking awareness through an initial overview of the topics. This edited volume benefits from the contributions of industry and academic experts and helps provide a cross-discipline overview of the security and practical issues for embedded systems, tokens, and platforms. It is an ideal complement to the earlier work, Smart Cards Tokens, Security and Applications from the same editors.

Trusted Computing for Embedded Systems

Trusted Computing for Embedded Systems
Author: Bernard Candaele
Publisher: Springer
Total Pages: 315
Release: 2014-12-11
Genre: Technology & Engineering
ISBN: 3319094203
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This book describes the state-of-the-art in trusted computing for embedded systems. It shows how a variety of security and trusted computing problems are addressed currently and what solutions are expected to emerge in the coming years. The discussion focuses on attacks aimed at hardware and software for embedded systems, and the authors describe specific solutions to create security features. Case studies are used to present new techniques designed as industrial security solutions. Coverage includes development of tamper resistant hardware and firmware mechanisms for lightweight embedded devices, as well as those serving as security anchors for embedded platforms required by applications such as smart power grids, smart networked and home appliances, environmental and infrastructure sensor networks, etc. · Enables readers to address a variety of security threats to embedded hardware and software; · Describes design of secure wireless sensor networks, to address secure authentication of trusted portable devices for embedded systems; · Presents secure solutions for the design of smart-grid applications and their deployment in large-scale networked and systems.

Practical Embedded Security

Practical Embedded Security
Author: Timothy Stapko
Publisher: Elsevier
Total Pages: 299
Release: 2011-04-01
Genre: Computers
ISBN: 0080551319
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The great strides made over the past decade in the complexity and network functionality of embedded systems have significantly enhanced their attractiveness for use in critical applications such as medical devices and military communications. However, this expansion into critical areas has presented embedded engineers with a serious new problem: their designs are now being targeted by the same malicious attackers whose predations have plagued traditional systems for years. Rising concerns about data security in embedded devices are leading engineers to pay more attention to security assurance in their designs than ever before. This is particularly challenging due to embedded devices’ inherent resource constraints such as limited power and memory. Therefore, traditional security solutions must be customized to fit their profile, and entirely new security concepts must be explored. However, there are few resources available to help engineers understand how to implement security measures within the unique embedded context. This new book from embedded security expert Timothy Stapko is the first to provide engineers with a comprehensive guide to this pivotal topic. From a brief review of basic security concepts, through clear explanations of complex issues such as choosing the best cryptographic algorithms for embedded utilization, the reader is provided with all the information needed to successfully produce safe, secure embedded devices. The ONLY book dedicated to a comprehensive coverage of embedded security! Covers both hardware- and software-based embedded security solutions for preventing and dealing with attacks Application case studies support practical explanations of all key topics, including network protocols, wireless and cellular communications, languages (Java and C/++), compilers, web-based interfaces, cryptography, and an entire section on SSL

Embedded Systems Security

Embedded Systems Security
Author: David Kleidermacher
Publisher: Elsevier
Total Pages: 417
Release: 2012-03-16
Genre: Computers
ISBN: 0123868866
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Front Cover; Dedication; Embedded Systems Security: Practical Methods for Safe and Secure Softwareand Systems Development; Copyright; Contents; Foreword; Preface; About this Book; Audience; Organization; Approach; Acknowledgements; Chapter 1 -- Introduction to Embedded Systems Security; 1.1What is Security?; 1.2What is an Embedded System?; 1.3Embedded Security Trends; 1.4Security Policies; 1.5Security Threats; 1.6Wrap-up; 1.7Key Points; 1.8 Bibliography and Notes; Chapter 2 -- Systems Software Considerations; 2.1The Role of the Operating System; 2.2Multiple Independent Levels of Security.

Security and Embedded Systems

Security and Embedded Systems
Author: R. Giladi
Publisher: IOS Press
Total Pages: 216
Release: 2006-01-12
Genre: Computers
ISBN: 1607501554
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Technological advances have led to wide deployment and use of embedded systems in an increasing range of applications, from mobile phones to car, plane and spacecraft and from digital id’s to military systems in the field. Many of these applications place significant security requirements and have led to significant research activity in the area of security and embedded systems, due to the limited resources of conventional embedded systems. This emerging research area is of great importance to a large number of public and private organizations, due to their desire to deploy secure embedded systems in the field. This publication brings together one of the first international efforts to emphasize the importance of this emerging technical field and provides presentations of leading researchers in the field. Its objectives are to present the technologies and open problems of the emerging area of security and embedded systems, to present the latest research results in all aspects of security in embedded systems, and, finally, to provide a roadmap of the technology for the future. Considering the main directions of research in the field, three main areas are discussed: (i) foundations of security and embedded systems, (ii) secure embedded computing systems and (iii) telecommunications and network services.

Hardware and Protocols for Authentication and Secure Computation

Hardware and Protocols for Authentication and Secure Computation
Author: Chiraag Shashikant Juvekar
Publisher:
Total Pages: 162
Release: 2018
Genre:
ISBN:
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The Internet of Things has resulted in an exponential rise in the number of embedded electronic devices. This thesis deals with ensuring the security of these embedded devices. In particular we focus our attention on two problems: first we look at how these devices can convince another of their identity i.e. authentication and second we look at how these devices and cloud servers can compute joint functions of their private inputs while revealing nothing but the computation results to the other i.e. secure computation. We start with the problem of counterfeit detection through electronic tagging. Physical access to electronic tags can be leveraged to mount side-channel and fault injection attacks. We design a new tagging solution that leverages ferro-electric capacitor based non volatile memory to addresses these issues. Next we note that resource constraints imposed by embedded devices often preclude the use of public-key cryptography. We address this issue through the development of a lightweight (10k-Gate) Elliptic Curve accelerator for the K-163 curves, which allows us to build a secure wireless-charging system that can block power from counterfeit and potentially dangerous chargers. Next we build upon these insights to develop a new authentication protocol which combines the leakage resilience and public-key authentication properties of our previous tagging solutions. We implement this bilinear pairing based protocol on a RISCV processor and demonstrate its practicality in an embedded environment through reuse of existing hardware accelerated cryptography for the TLS protocol. The final part of this thesis develops a framework for secure two-party computation. Our primary contribution is a judicious combination of homomorphic encryption and garbled circuits to substantially improve the performance of secure two-party computation. This allows us to present a practical solution to the problem of secure neural network inference, i.e. classifying your private data against a server's private model without either party sharing their data with the other. Our hybrid approach improves upon the state-of-art by 20-30 x in classification latency. Our final contributions are two efficient 2PC protocols that implement secure matrix multiplication and vector-OLE primitives. For both these tasks we improve concrete computation and communication performance over the state-of-art by an order of magnitude.

Secured Authentication System for Internet of Things

Secured Authentication System for Internet of Things
Author: Gowtham Mohan
Publisher: GRIN Verlag
Total Pages: 130
Release: 2024-04-19
Genre: Computers
ISBN: 3389014071
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Academic Paper from the year 2024 in the subject Computer Sciences - Internet of Things, IOT, grade: A, Free University of Berlin (The National Institute of Engineering, Mysore), course: Ph.D, language: English, abstract: The key objectives defined in this thesis are given as follows: To analyse the different security breaches in the IoT Ecosystem. To develop a lightweight cryptographic scheme for secured Authentication in IoT. To develop a multilevel security model by using Enhanced Cryptosystem for secured Authentication in IoT. To ensure reliable and secure communication and access across multiple co-operatively communicating devices in IoT ecosystems ensuring optimal security and authentication system is must. Though, IoT demands ensuring security and authentication for both “device level security” and “data security under communication”. Noticeably, the device level security addresses attack resilience from any unwanted or unexpected intruder by applying certain authentication variables or key agreement policies. However, in the last few years, the events pertaining to smart card loss attack (SCLA), Brute-Force attack, impersonation attack, data sniffing attack etc., have questioned major at-hand security solutions. The irony is, in the majority of IoT systems, the access information or the key agreement information is saved or preserved onto the local memory, which often broadens the horizon for data loss, or attack. In such classical approaches the possibility of SCLA, Impersonation and Brute-force attack can’t be neglected. And therefore, ensuring both system level access authentication is inevitable. In other words, strengthening data security in IoT systems is equally significant like device level security and authentication. Once system considers both data level security as well as device level authentication system retaining quality of content and hardware efficiency becomes equally inevitable. On the other hand, maintaining efficacy of the security system with higher authentication correctness amongst the gateways and communication devices is must. It demands a collaborative low-cost or lightweight security model to enable security while maintaining IoT- expectations like low-computation, lightweight computation, low-power consumption, better data quality, attack resilience and fast in response. It can be considered as the key driving force behind this research.