This book is the first to develop a systematized approach for the comparison and evaluation of secure deletion solutions. The book focuses on novel secure deletion solutions targeting specific real-world environments where secure deletion is problematic: mobile storage and remote storage. The author surveys related work, organizes existing solutions in terms of their interfaces, presents a taxonomy of adversaries differing in their capabilities, and then builds a system and adversarial model based on the survey of related work. The book is useful for both academics, researchers and graduate students, and for practitioners who may integrate its results into deployed systems. Joel Reardon received his Ph.D. from the System Security Group of the Institute of Information Security of ETH Zürich. He is currently a postdoc in the International Computer Science Institute (ICSI) and University of California, Berkeley.
This book offers readers a clear guide to implementing engineering applications with FPGAs, from the mathematical description to the hardware synthesis, including discussion of VHDL programming and co-simulation issues. Coverage includes FPGA realizations such as: chaos generators that are described from their mathematical models; artificial neural networks (ANNs) to predict chaotic time series, for which a discussion of different ANN topologies is included, with different learning techniques and activation functions; random number generators (RNGs) that are realized using different chaos generators, and discussions of their maximum Lyapunov exponent values and entropies. Finally, optimized chaotic oscillators are synchronized and realized to implement a secure communication system that processes black and white and grey-scale images. In each application, readers will find VHDL programming guidelines and computer arithmetic issues, along with co-simulation examples with Active-HDL and Simulink. The whole book provides a practical guide to implementing a variety of engineering applications from VHDL programming and co-simulation issues, to FPGA realizations of chaos generators, ANNs for chaotic time-series prediction, RNGs and chaotic secure communications for image transmission. Esteban Tlelo-Cuautle received a B.Sc. degree from Instituto Tecnológico de Puebla México in 1993. He then received both M.Sc. and Ph.D. degrees from Instituto Nacional de Astrofísica, Óptica y Electrónica (INAOE) México in 1995 and 2000, respectively. From 2001 he is appointed as Tenure Professor at INAOE. He has authored or edited 13 books and more than 250 works published in book chapters, journals and conferences. He serves as Associate Editor in IEEE Transactions on Circuits and Systems I: Regular Papers (2016-2017), Integration - the VLSI Journal (2013-2016), and IEEE Transactions on Circuits and Systems II: Express Briefs (2014-2015). He has been Technical Program Committee member of major conferences in the areas of circuits and systems (CAS). His research interests include modeling, design and synthesis of integrated CAS, design and applications of chaotic systems, CAS optimization by heuristics, symbolic analysis and analog/RF and mixed-signal design automation tools. Jose de Jesus Rangel-Magdaleno received the B.E. degree in electronics engineering and the M.E. degree in electrical engineering on hardware signal processing from Universidad de Guanajuato, Mexico in 2006 and 2008, respectively. He received the Ph.D. degree in mechatronics from the Universidad Autonoma de Queretaro, Mexico in 2011. He is currently Titular Researcher at the Electronics Department at INAOE, Mexico. He has authored 20 journal articles and 21 conferences papers. He is a member of the Mexican national research system (SNI), level 1. His research interests include FPGAs, signal and image processing, instrumentation and mechatronics. Luis Gerardo de la Fraga received the B.Sc. degree from the Veracruz Institute of Technology, Mexico, in 1992, the M.Sc. degree from the National Institute of Astrophysics, Optics and Electronics, Mexico, in 1994, in Electrical Engineering; and the Ph.D. degree from the Autonomous University of Madrid, Spain, in 1998 in Informatics Engineering. From 1998 to 2000, he was Assistant Professor in the Autonomous University of Morelos State, in Cuernavaca, Mexico. Since 2000, he is working as researcher scientist at Cinvestav in the Computer Science Department in Mexico City. His research interests include computer graphics, computer vision, image processing, optimization, network security, and he is very enthusiastic of open-source software and GNU/Linux systems. He has authored more tan fifty technical articles published in journals, book chapters, and international conference proceedings. Dr. De la Fraga is member of IEEE and ACM since 2005.
This book comprehensively reviews the cyber security and privacy issues in transportation cyber-physical systems (TCPSs). It examines theories and various state-of-the-art technologies and methodologies. Starting with a survey of the latest solutions in TCPSs, it introduces a smart-transport-system architecture design based on cyber-physical systems. It then discusses in detail the principles and metrics of evaluating safety and privacy in TCPSs and elaborates the verification and analysis of secure, robust and trustworthy TCPSs. Moreover, it demonstrates the advanced and novel tools commonly used in practice by several researchers. Lastly it provides an exhaustive case study on the authentication and attestation in TCPSs. This book is of interest not only to readers in the field of TCPSs, but also to those in interdisciplinary fields, such as energy, healthcare, bio-engineering etc. Yunchuan Sun is currently an associate professor at Beijing Normal University, Beijing, China. He is an IEEE senior member and the Secretary of the IEEE Communications Society Technical Subcommittee for the Internet of Things. He is also a CCF (China Computer Federation) member and has been an associate editor of Personal and Ubiquitous Computing since 2012. He received his PhD degree from the Institute of Computing Technology, Chinese Academy of Science, Beijing China in 2009. His research interests include the Internet of Things, big data modeling and analysis, event-linked networks, semantic technologies, knowledge engineering, and information security. He has published more than 40 papers at international conferences and in journals. As one of the primary founders and program co-chairs, he has successfully organized the international IIKI series events: IIKI2012, IIKI2013, IIKI2014, and IIKI2015. He has also organized more than 10 special issues on IoT or big-data re levant topics for several international journals. He is involved in several research projects, including NSFC, 973 and 863 and Program of China projects. Houbing Song received the M.S. degree in civil engineering from the University of Texas, El Paso, TX, in December 2006, and the Ph.D. degree in electrical engineering from the University of Virginia, Charlottesville, VA, in August 2012. In August 2012, he joined the Department of Electrical and Computer Engineering, West Virginia University Institute of Technology, Montgomery, WV, where he is currently the Golden Bear Scholar, an Assistant Professor and the Founding Director of both the Security and Optimization for Networked Globe Laboratory (SONG Lab), and West Virginia Center of Excellence for Cyber-Physical Systems sponsored by West Virginia Higher Education Policy Commission. In 2007 he was an Engineering Research Associate with the Texas A&M Transportation Institute. He is an editor of four books, including Cyber-Physical Systems: Foundations, Principles and Applications, Boston, MA: Academic Press (Elsevier), 2016, Security and Privacy in Cyber-Physical Systems: Foundations, Principles and Applications, Chichester, UK: Wiley-IEEE Press, 2017, Smart Cities: Foundations, Principles and Applications, Hoboken, NJ: Wiley, 2017, and Industrial Internet of Things: Cybermanufacturing Systems, Cham, Switzerland: Springer, 2017. He is the author of more than 100 articles. His research interests include cyber-physical systems, internet of things, cloud computing, big data analytics, connected vehicle, wireless communications and networking, and optical communications and networking. Dr. Song is a senior member of IEEE and a member of ACM. Dr. Song was the very first recipient of the Golden Bear Scholar Award, the highest faculty research award at West Virginia University Institute of Technology (WVU Tech), in 2016.
These Drum Hardware cases are designed to keep your Hardware safe and secure during storage, and transport. The hardware case lids and bases have a unique feature for stacking that securely locates one case on top of another.- The 36 hardware case has HD Wheels with bearings running on a solid steel axle mounted at one end - Specially designed case to take drum hardware including a ´bucket´ stool.- 2 Side mounted Soft Grip lifting / carrying / pull handles- 2 Over lid PVC covered strap lifting / carrying handles- Ultimate protection from knocks, drops, bangs and skids- Ultra tough single piece shell cases.- Won´t rot, won´t rip, won´t fall apart - cases for long lasting protection.- Stacking design for easier transport and storage.- Ultra strong webbing and clips.- ID badge to identify your own hardware case. - More protection than a hardware softcase- Cheaper than a hardware flight case* Length: 920mm* Width: 470mm* Height: 267mm* Wheels: 2* Max. Load: 50kgs
This case is designed to keep your Hardware safe and secure during storage, and transport. The hardware case lids and bases have a unique feature for stacking that securely locates one case on top of another. The perfect case for drum kit hardware, stands pedals and stool. - The 48 hardware case has HD Wheels with bearings running on a solid steel axle mounted at one end.- 48 case takes Microphone stands, speaker stands and drum racks.- 2 Side mounted Soft Grip lifting / carrying / pull handles- 2 Over lid PVC covered strap lifting / carrying handles- Ultimate protection from knocks, drops, bangs and skids- Ultra tough single piece shell cases.- Won´t rot, won´t rip, won´t fall apart - cases for long lasting protection.- Stacking design for easier transport and storage.- Ultra strong webbing and clips.- ID badge to identify your own hardware case. - More protection than a hardware softcase- Cheaper than a hardware flight case* Length: 1207mm* Width: 272mm* Height: 267mm* Wheels: 2* Max. Load: 35kgs
This case is designed to keep your Hardware safe and secure during storage, and transport. The hardware case lids and bases have a unique feature for stacking that securely locates one case on top of another. The perfect case for hardware, stands, tripods etc.* The 40 hardware case has HD Wheels with bearings running on a solid steel axle mounted at one end.* 2 Side mounted Soft Grip lifting / carrying / pull handles* 2 Over lid PVC covered strap lifting / carrying handles* Ultimate protection from knocks, drops, bangs and skids* Ultra tough single piece shell cases.* Won´t rot, won´t rip, won´t fall apart - cases for long lasting protection.* Stacking design for easier transport and storage.* Ultra strong webbing and clips.* ID badge to identify your own hardware case. * More protection than a hardware softcase* Cheaper than a hardware flight case* Length: 1003mm* Width: 272mm* Height: 267mm* Wheels: 2* Max. Load: 30kgs
This case is designed to keep your Hardware safe and secure during storage, and transport. The hardware case lids and bases have a unique feature for stacking that securely locates one case on top of another. The perfect case for hardware, stands, tripods etc.- The 52 hardware case has Four Heavy Duty Wheels with bearings running on a solid steel axles.- This large capacity case can take a number large stands and rigs.- 2 Side mounted Soft Grip lifting / carrying / pull handles- 2 Over lid PVC covered strap lifting / carrying handles- Ultimate protection from knocks, drops, bangs and skids- Ultra tough single piece shell cases.- Won´t rot, won´t rip, won´t fall apart - cases for long lasting protection.- Four Ultra strong webbing and clips hold the lid in place. - More protection than a hardware softcase- Cheaper than a hardware flight case* Length: 1308mm* Width: 394mm* Height: 368mm* Wheels: 4* Max. Load: 48kgs
This book provides a comprehensive and up-to-date guide to the design of security-hardened, hardware intellectual property (IP). Readers will learn how IP can be threatened, as well as protected, by using means such as hardware obfuscation/camouflaging, watermarking, fingerprinting (PUF), functional locking, remote activation, hidden transmission of data, hardware Trojan detection, protection against hardware Trojan, use of secure element, ultra-lightweight cryptography, and digital rights management. This book serves as a single-source reference to design space exploration of hardware security and IP protection. Lilian Bossuet is an Associate Professor at University of Saint-Etienne, head of the Embedded System Security group and head of the Computer Science departement of the Laboratoire Hubert Curien. His research is in the general area of embedded systems design, including hardware security of embedded systems (data, intellectual property and system security) and reconfigurable hardware design. His active research topics focus on Hardware security, war against illegal IC copy and counterfeiting, IP protection, PUF design and characterization, side channel attacks and countermeasures, TRNG attack, MCryptoPSoC architecture and design, crypto-processor architecture and design, embedded system security, and FPGA security. Lionel Torres is Professor at the University of Montpellier (Polytech Montpellier engineering school), France. His research activities is part of the microelectronic department of the Laboratory of Informatics, Robotics and Microelectronics of Montpellier (laboratory to the University of Montpellier and the French National Center for Scientic Research (CNRS)). His research interests concern system level architecture, with a specific focus in the security and cryptographic applications and Non-Volatile Computing based on MRAM. He has a PhD from the University of Montpellier in microelectronic design and was at the head of the microelectronic department of LIRMM and he is now deputy head of Polyptych Montpellier and at the Head of the Labex (Laboratory of Excellence) of Digital and Hardware Solutions, Environmental and Organic Life Modeling. He is also co-founder of the Algodone company, company proposing a Digital Right Management solution for silicon IP.
This book provides a comprehensive introduction to hardware security, from specification to implementation. Applications discussed include embedded systems ranging from small RFID tags to satellites orbiting the earth. The authors describe a design and synthesis flow, which will transform a given circuit into a secure design incorporating counter-measures against fault attacks. In order to address the conflict between testability and security, the authors describe innovative design-for-testability (DFT) computer-aided design (CAD) tools that support security challenges, engineered for compliance with existing, commercial tools. Secure protocols are discussed, which protect access to necessary test infrastructures and enable the design of secure access controllers. Nicolas Sklavos is an Associate Professor, with the Computer Engineering & Informatics Department, Polytechnic School, University of Patras, Hellas. He holds an award for his PhD thesis on VLSI Designs of Wireless Communications Security Systems, from IFIP VLSI SOC, Germany, 2003. He has been awarded with a post-doctoral research scholarship, from the National Scholarship Foundation. He has participated in a great number of European and National projects, with both research & management activities, funding by the European Commission or/and National resources. He also acts as a reviewer and evaluator for both European Commission Project Calls, and National Project Calls of several countries. He is Associate Editor of the Electrical & Computer Engineering Journal, Hindawi and Cryptography, ?DPI Publisher. He was the Editor in Chief of Information Security Journal: a Global Perspective, Taylor Francis Group, from 2011 to 2014. He also served as Associate Editor of IEEE Transactions of Latin America, and Computers & Electrical Engineering Journal, Elsevier and Information Security Journal: a Global Perspective, Taylor Francis Group. He has been invited as Guest Editor of Special Issues of several publishers. He has been awarded as Top Associated Editor for 2010 and 2011, from Computers & Electrical Engineering Journal, Elsevier. He is an IEEE, Senior Member. From 2007 to 2014, he was the Councils Chair of IEEE Greece Young Professionals. He is an Associated Member of European Network of Excellence (HiPEAC). He is a member of the IFIP Working Group 11.3 on Data and Application Security and Privacy. He is also a member of International Association for Cryptologic Research (IACR), the Technical Chamber of Greece, and the Greek Electrical Engineering Society. He has participated in the committees of up to 300 conferences organized by IEEE, ACM, IFIP, as General, Program, Publication, etc, Chair, and with other roles. He has also authored/co-authored up to 250 scientific articles, published in journals, conferences, both books, books chapters, tutorials and technical reports, in the areas of his research. He has been invited as keynote speaker to several international conferences, workshops, summer schools etc. Recently, the results of his research, have received up to 1700 citations, in the scientific and technical literature.
The basic HEXRACKII set consists of two legs and is fully compatible with Yamaha System Hardware.Compared to a typical hardware setup, the HEXRACKII uses less space and reduces floor clutter produced by stand legs, etc., around the kit. The system’s pipes and racks are made from aluminum, which makes the system lighter, transport and setup easier. And with a wide variety of optional clamps available, the rack system offers great expandability.Newly Designed Aluminum Pipe… Stronger, Lighter in WeightNewly Designed Aluminum Pipe… Stronger, Lighter in WeightThe HEXRACKII utilizes a complex cross section design evolved from the original HEXRACK. The pipes are made from an aluminum alloy. This combination of design and material produces pipes that are significantly lighter in weight while providing greatly improved strength-as much as double that of conventional round pipe.Get A GripGet A GripHEXRACKII clamps get a rock solid grip on the rails with a synthetic sleeve that fits between the clamp and the rail. As the clamp tightens, it compresses the sleeve to establish a solid grip. This gives the clamp a secure, slip-free hold on the rail when tightened, and allows easy adjustment when loosened, making the whole setup process quick, easy, flexible, and solid.