Mobile Application Security

Mobile Application Security

Secure today’s mobile devices and applications

Mobile Application Security

Introduction to Fluorescence Sensing

Introduction to Fluorescence Sensing

Fluorescence sensing is a rapidly developing field of research and technology. Its target is nearly the whole world of natural and synthetic compounds being detected in different media including living bodies. The application area range from control of industrial processes to environment monitoring and clinical diagnostics. Among different detection methods fluorescence techniques are distinguished by ultimate sensitivity, high temporal and spatial resolution and versatility that allows not only remote detection of different targets but their imaging within the living cells. The basic mechanism of sensing is the transmission of the signal produced by molecular interaction with the target to fluorescent molecules, nanoparticles and nanocomposites with the detection by devices based on modern electronics and optics. In this interdisciplinary field of research and development the book is primarily intended to be a guide for students and young researchers. It is also addressed to professionals involved in active research and product development serving as a reference for the recent achievements. The users of these products will find description of principles that could allow proper selection of sensors for particular needs. Making a strong link between education, research and product development, this book discusses future directions.

Introduction to Fluorescence Sensing

Constitutive Relations under Impact Loadings

Constitutive Relations under Impact Loadings

The book describes behavior of materials (ductile, brittle and composites) under impact loadings and high strain rates. The three aspects: experimental, theoretical and numerical are in the focus of interest. Hopkinson bars are mainly used as experimental devices to describe dynamic behavior of materials. The precise description of experimental techniques and interpretation of wave interaction are carefully discussed. Theoretical background refers to rate dependent thermo viscoplastic formulation. This includes the discussion of well posedness of initial boundary value problems and the solution of the system of governing equations using numerical methods. Explicit time integration is used in computations to solve dynamic problems. In addition, many applications in aeronautic and automotive industries are exposed.

Constitutive Relations under Impact Loadings

Integrated Nanophotonic Devices

Integrated Nanophotonic Devices

Nanophotonics is a field of science and technology based on the manipulation of light with equally miniscule structures, in the same way that computer chips are used to route and switch electrical signals. By enabling new high bandwidth, high speed optoelectronic components, nanophotonics has the potential to revolutionize the fields of telecommunications, computation and sensing.

Integrated Nanophotonic Devices

Eaten alive!

Eaten alive!

From the 1970s to the 1990s, Italian moviemakers produced the goriest exploitation films ever made, using recurring plot devices of cannibalism and putrefied zombie flesh eaters. Eaten Alive! dissects this outrageous period, setting it within its cultural and cinematic context. With an introduction explaining the origins of the gruesome genre, the book charts every bloody step, from the renowned Pasolini, who employed cannibalism as a satirical metaphor, to shocking ‘documentaries’ such as Cannibal Holocaust, an acknowledged influence on The Blair Witch Project. Informed, irreverent contributions from legends of the modern horror scene round out this fascinating book.

Eaten alive!

Security and Privacy for Implantable Medical Devices

Security and Privacy for Implantable Medical Devices

This book presents a systematic approach to analyzing the challenging engineering problems posed by the need for security and privacy in implantable medical devices (IMD). It describes in detail new issues termed as lightweight security, due to the associated constraints on metrics such as available power, energy, computing ability, area, execution time, and memory requirements. Coverage includes vulnerabilities and defense across multiple levels, with basic abstractions of cryptographic services and primitives such as public key cryptography, block ciphers and digital signatures. Experts from Computer Security and Cryptography present new research which shows vulnerabilities in existing IMDs and proposes solutions. Experts from Privacy Technology and Policy will discuss the societal, legal and ethical challenges surrounding IMD security as well as technological solutions that build on the latest in Computer Science privacy research, as well as lightweight solutions appropriate for implementation in IMDs.

Security and Privacy for Implantable Medical Devices

Nanoscale Phenomena

Nanoscale Phenomena

The main intention of the editors of the book is the demonstration of the intrinsic correlation and mutual influence of three important components of nanoscience: new phenomena nanomaterials nanodevices. This is the organizing concept of the book. To discover new phenomena it is necessary to develop novel nanotechnological processes for fabrication of nanomaterials. Nanostructures and new phenomena serve as the base for the development of novel nanoelectronic devices and systems. The articles selected for the book illustrate this interrelation.

Nanoscale Phenomena

Vortex, Molecular Spin and Nanovorticity

Vortex, Molecular Spin and Nanovorticity

The subject of this book is the physics of vortices. A detailed analysis of the dynamics of vortices will be presented. The important topics of vorticity and molecular spin will be dealt with, including the electromagnetic analogy and quantization in superfluids. The effect of molecular spin on the dynamics of molecular nano-confined fluids using the extended Navier-Stokes equations will also be covered especially important to the theory and applicability of nanofluidics and associated devices. The nanoscale boundary layer and nanoscale vortex core are regions of intense vorticity (molecular spin). It will be shown, based on molecular kinetic theory and thermodynamics, that the macroscopic (solid body) rotation must be accompanied by internal rotation of the molecules. Electric polarization of the internal molecular rotations about the local rotation axis the Barnett effect occurs. In such a spin aligned system, major changes in the physical properties of the fluid result.

Vortex, Molecular Spin and Nanovorticity

Fibre Optic Communication

Fibre Optic Communication

The book gives an in-depth description of the key devices of current and next generation fibre optic communication networks. In particular, the book covers devices such as semiconductor lasers, optical amplifiers, modulators, wavelength filters, and detectors but the relevant properties of optical fibres as well. The presentations include the physical principles underlying the various devices, the technologies used for the realization of the different devices, typical performance characteristics and limitations, and development trends towards more advanced components are also illustrated. Thus the scope of the book spans relevant principles, state-of-the-art implementations, the status of current research and expected future components.

Fibre Optic Communication

More Than Moore

More Than Moore

In the past decades, the main stream of microelectronics progress has been mainly powered by Moore’s law which focuses on IC miniaturization down to nanoscale. While the microelectronics community around the world continues to invent new solutions to keep Moore’s law alive, there is a fast increasing need for non-digital and mixed-signal ‘More than Moore’ (MtM) type technologies that are still based upon or derived from silicon technologies, but do not simply scale with Moore’s law. Typical examples are devices incorporating RF, power/high voltage, passive components, sensors and actuators, MEMS, Bio-chip/bio-systems, microfluidics, solid-state lighting, etc.. The increasing momentum of MtM is triggered by the increasing needs for high level heterogeneous system integration including non-digital functions, the necessity to speed up innovative product creation and to broaden the product portfolio of IC fabs, and the limiting cost and time factors of advanced system-on-chip (SoC) development. It is believed that MtM will add value to society on top of and beyond advanced semiconductors technologies, with fast increasing marketing potentials, and that it will drive paradigm shift for technologies, applications and business models.

More Than Moore

Mobile Payment

Mobile Payment

Paying with mobile devices such as mobile phones or smart phones will expand worldwide in the coming years. This development provides opportunities for various industries (banking, telecommunications, credit card business, manufacturers, suppliers, retail) and for consumers.

Mobile Payment

Security in Embedded Devices

Security in Embedded Devices

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.

Security in Embedded Devices

Quantum Dot Devices

Quantum Dot Devices

Quantum dots as nanomaterials have been extensively investigated in the past several decades from growth to characterization to applications. As the basis of future developments in the field, this book collects a series of state-of-the-art chapters on the current status of quantum dot devices and how these devices take advantage of quantum features. Written by 56 leading experts from 14 countries, the chapters cover numerous quantum dot applications, including lasers, LEDs, detectors, amplifiers, switches, transistors, and solar cells. Quantum Dot Devices is appropriate for researchers of all levels of experience with an interest in epitaxial and/or colloidal quantum dots. It provides the beginner with the necessary overview of this exciting field and those more experienced with a comprehensive reference source.

Quantum Dot Devices

Parasitic Phenomena in the Dynamics of Industrial Devices

Parasitic Phenomena in the Dynamics of Industrial Devices

In the real world the dynamic behavior of a real machine presents either unforeseen or limiting phenomena: both are undesired, and can be therefore be classified as parasitic phenomena unwanted, unforeseen, or limiting behaviors. Parasitic Phenomena in the Dynamics of Industrial Devices describes the potential causes and effects of these behaviors and provides indications that could minimize their influence on the mechanical system in question.

Parasitic Phenomena in the Dynamics of Industrial Devices

Morphogenetic Engineering

Morphogenetic Engineering

Edited and authored by leading researchers in the field First comprehensive monograph on this newly emerging field Suitable as both self-study tutorial and reference text Generally, spontaneous pattern formation phenomena are random and repetitive, whereas elaborate devices are the deterministic product of human design. Yet, biological organisms and collective insect constructions are exceptional examples of complex systems that are both self-organized and architectural. This book is the first initiative of its kind toward establishing a new field of research, Morphogenetic Engineering, to explore the modeling and implementation of ‘self-architecturing’ systems. Particular emphasis is placed on the programmability and computational abilities of self-organization, properties that are often underappreciated in complex systems science-while, conversely, the benefits of self-organization are often underappreciated in engineering methodologies. Altogether, the aim of this work is to provide a framework for and examples of a larger class of ‘self-architecturing’ systems, while addressing fundamental questions such as > How do biological organisms carry out morphogenetic tasks so reliably? > Can we extrapolate their self-formation capabilities to engineered systems? > Can physical systems be endowed with information (or informational systems be embedded in physics) so as to create autonomous morphologies and functions? > What are the core principles and best practices for the design and engineering of such morphogenetic systems? The intended audience consists of researchers and graduate students who are working on, starting to work on, or interested in programmable self-organizing systems in a wide range of scientific fields, including computer science, robotics, bioengineering, control engineering, physics, theoretical biology, mathematics, and many others.

Morphogenetic Engineering

Copper Electrodeposition for Nanofabrication of Electronics Devices

Copper Electrodeposition for Nanofabrication of Electronics Devices

This book discusses the scientific mechanism of copper electrodeposition and it’s wide range of applications. The book will cover everything from the basic fundamentals to practical applications. In addition, the book will also cover important topics such as: ULSI wiring material based upon copper nanowiring Printed circuit boards Stacked semiconductors Through Silicon Via Smooth copper foil for Lithium-Ion battery electrodes. This book is ideal for nanotechnologists, industry professionals, and practitioners.

Copper Electrodeposition for Nanofabrication of Electronics Devices

Next Generation of Photovoltaics

Next Generation of Photovoltaics

This book presents new concepts for a next generation of PV. Among these concepts are: Multijunction solar cells, multiple excitation solar cells (or how to take benefit of high energy photons for the creation of more than one electron hole-pair), intermediate band solar cells (or how to take advantage of below band-gap energy photons) and related technologies (for quantum dots, nitrides, thin films), advanced light management approaches (plasmonics). Written by world-class experts in next generation photovoltaics this book is an essential reference guide accessible to both beginners and experts working with solar cell technology. The book deeply analyzes the current state-of-the-art of the new photovoltaic approaches and outlines the implementation paths of these advanced devices. Topics addressed range from the fundamentals to the description of state-of-the-art of the new types of solar cells.

Next Generation of Photovoltaics

Semiconductor Modeling Techniques

Semiconductor Modeling Techniques

This book describes the key theoretical techniques for semiconductor research to quantitatively calculate and simulate the properties. It presents particular techniques to study novel semiconductor materials, such as 2D heterostructures, quantum wires, quantum dots and nitrogen containing III-V alloys. The book is aimed primarily at newcomers working in the field of semiconductor physics to give guidance in theory and experiment. The theoretical techniques for electronic and optoelectronic devices are explained in detail.

Semiconductor Modeling Techniques

QuantumWell Infrared Photodetectors

QuantumWell Infrared Photodetectors

Addressed to both students as a learning text and scientists/engineers as a reference, this book discusses the physics and applications of quantum-well infrared photodetectors (QWIPs). It is assumed that the reader has a basic background in quantum mechanics, solid-state physics, and semiconductor devices. To make this book as widely accessible as possible, the treatment and presentation of the materials is simple and straightforward. The topics for the book were chosen by the following criteria: they must be well-established and understood; and they should have been, or potentially will be, used in practical applications. The monograph discusses most aspects relevant for the field but omits, at the same time, detailed discussions of specialized topics such as the valence-band quantum wells.

QuantumWell Infrared Photodetectors

Smart Sensors and Mems

Smart Sensors and Mems

Smart sensors and micro electro mechanical systems (MEMS) can include a variety of devices and systems that have a high level of functionality. They may integrate sensing and actuating with information processing, analog to digital conversion and memory functions. Smart sensors and MEMS may respond to algorithmic instructions and calibration requests, allowing smart devices to become more autonomous as they provide self diagnostics and self correction. Intelligence enables adaptation, which in turn increases the reliability and longevity of the smart device and this can significantly reduce costs. The editors have brought together a roster of contributing experts to cover smart sensors including capacitive, inductive, resistive and image sensors, smart MEMS including power MEMS, optical MEMS, inertial MEMS, and MEMS print heads.

Smart Sensors and Mems