Threat Hunting in the Cloud : Defending AWS, Azure and Other Cloud Platforms Against Cyberattacks
You'll learn : Key business and technical drivers of cybersecurity threat hunting frameworks in today's technological environment / Metrics available to assess threat hunting effectiveness regardless of an organization's size / How threat hunting works with vendor-specific single cloud security offerings and on multi-cloud implementations / A detailed analysis of key threat vectors such as email phishing, ransomware and nation state attacks / Comprehensive AWS and Azure "how to" solutions through the lens of MITRE Threat / Hunting Framework Tactics, Techniques and Procedures (TTPs) / Azure and AWS risk mitigation strategies to combat key TTPs such as privilege escalation, credential theft, lateral movement, defend against command & control systems, and prevent data exfiltration / Tools available on both the Azure and AWS cloud platforms which provide automated responses to attacks, and orchestrate preventative measures and recovery strategies / Many critical components for successful adoption of multi-cloud threat hunting framework such as Threat Hunting Maturity Model, Zero Trust Computing, Human Elements of Threat Hunting, Integration of Threat Hunting with Security Operation Centers (SOCs) and Cyber Fusion Centers / The Future of Threat Hunting with the advances in Artificial Intelligence, Machine Learning, Quantum Computing and the proliferation of IoT devices.
Thoracic Aortic Diseases
This book has been written in a clear scientific way summarising the current understanding of two major aortic complications: aneurysms and acute and chronic dissections. It is updated with the most recent basic clinical research, epidemiological findings, medical, surgical and endovascular therapies of the aorta.
Thinking in Complexity : The Computational Dynamics of Matter, Mind, and Mankind
The theory of nonlinear, complex systems has become by now a proven problem-solving approach in the natural sciences. In this book, Klaus Mainzer discusses, the common framework behind these ideas and challenges. Emphasis is given to the evolution of new structures in natural and cultural systems.
Thinking about Life : The History and Philosophy of Biology and Other Sciences
Our previous book, About Life, concerned modern biology. We used our present-day understanding of cells to ‘define’ the living state, providing a basis for exploring several general-interest topics: the origin of life, extraterrestrial life, intelligence, and the possibility that humans are unique. The ideas we proposed in About Life were intended as starting-points for debate – we did not claim them as ‘truth’ – but the information on which they were based is currently accepted as ‘scientific fact’. What does that mean? What is ‘scientific fact’ and why is it accepted? What is science – and is biology like other sciences such as physics (except in subject m- ter)? The book you are now reading investigates these questions – and some related ones. Like About Life, it may particularly interest a reader who wishes to change career to biology and its related subdisciplines. In line with a recommendation by the British Association for the Advancement of Science – that the public should be given fuller information about the nature of science – we present the concepts underpinning biology and a survey of its historical and philosophical basis.
Thin Films of Soft Matter
A detailed overview and comprehensive analysis of the main theoretical and experimental advances on free surface thin film and jet flows of soft matter is given. At the theoretical front the book outlines the basic equations and boundary conditions and the derivation of low-dimensional models for the evolution of the free surface. Such models include long-wave expansions and equations of the boundary layer type and are analyzed via linear stability analysis, weakly nonlinear theories and strongly nonlinear analysis including construction of stationary periodic and solitary wave and similarity solutions. At the experimental front a variety of very recent experimental developments is outlined and the link between theory and experiments is illustrated. Such experiments include spreading drops and bubbles, imbibitions, singularity formation at interfaces and experimental characterization of thin films using atomic force microscopy, ellipsometry and contact angle measurements and analysis of patterns using Minkowski functionals.
Thin films and heterostructures for oxide electronics
"this book intends to serve as a significant and insightful source of valuable information pertaining to the ongoing scientific debates, current state of understanding and future directions. As such, it should be very useful to university students, post docs, professors and research scientists in industries and national laboratories." With the ever-shrinking dimensions and ever-increasing speeds of conventional semiconductor-based micro and opto-electronic devices, scientific limitations are beginning to be felt by the technology sector in keeping pace with the newer device demands of the modern times. Novel approaches involving new materials such as functional oxides are being explored to tackle this problem. This research is already beginning to pave way for the next generation device concepts and configurations for advanced oxide electronics, encompassing magneto-optics and spintronics. Thin Film Heterostructures for Oxide Electronic presents comprehensive chapters written by active researchers in the field of oxide films and heterostructures. These chapters capture the excitement of this emerging frontier of immense scientific and technological interest. They highlight the materials, physics, device and even key fabrication issues. Many interesting material systems such as magnetic, ferroelectric and superconducting oxides, wide band-gap semiconducting oxides and high- dielectric oxides are discussed.
Thermo-fluid Dynamics of Two-Phase Flow
Thermo-fluid dynamics of two-phase flow is an important subject for various scientific and engineering fields. It plays a particularly significant role in thermal-hydraulic analysis of nuclear reactor transients and accidents.
Thermo-Dynamics of Plates and Shells
This monograph is devoted to the investigation of nonlinear dynamics of plates and shells embedded in a temperature field. Numerical approaches and rigorous mathematical proofs of solution existence in certain classes of differential equations with various dimensions are applied. Both closed shell-type constructions and sectorial shells are studied. The considered problems are approximated by 2D and 3D constructions taking into account various types of nonlinearities (geometrical and/or physical with coupled deformation and temperature fields), and are subjected to an action of stationary and non-stationary thermal loads.
Thermodynamics in Mineral Sciences : An Introduction
The subject of this book are natural systems where thermodynamic processes take place as a result of changes in temperature, pressure and composition. The basic concepts are discussed on low level trying to preserve the mathematical rigor. Calculated examples using data from the mineralogical literature are given to elucidate the difficult and very abstract matter of thermodynamics. The book is aimed for students of geology, mineralogy, material science and all other interested readers who deal with solid matter.
Thermodynamics in Earth and Planetary Sciences
Based on a university course, this book provides an exposition of a large spectrum of geological, geochemical and geophysical problems that are amenable to thermodynamic analysis.
Thermodynamics for drug product design : A guide for pharmaceutical scientists
Provides real-life drug product design examples, applications, personal anecdotes, and solved problems that contextualize thermodynamic principles for the drug product design scientist. Advanced undergraduate and beginning graduate students will learn to apply thermodynamic principles to create robust drug products and to predict, prevent, analyze, and evaluate the root cause of product failures. Professionals engaged in drug product design will find this book to be a rich and easy to use reference guide.
Thermodynamics and Fluctuations far from Equilibrium
Sals with the formulation of the thermodynamics of chemical and other systems far from equilibrium, including connections to fluctuations. It contains applications to non-equilibrium stationary states and approaches to such states, systems with multiple stationary states, stability and equi-stability conditions, reaction diffusion systems, transport properties, and electrochemical systems. The theoretical treatment is complemented by experimental results to substantiate the formulation. Dissipation and efficiency are analyzed in autonomous and externally forced reactions, including several biochemical systems.
Thermodynamic equilibria and extrema : Analysis of attainability regions and partial equilibrium
Discusses mathematical models that are based on the concepts of classical equilibrium thermodynamics. They are intended for the analysis of possible results of diverse natural and production processes. Unlike the traditional models, these allow one to view the achievable set of partial equilibria with regards to constraints on kinetics, energy and mass exchange and to determine states of the studied systems of interest for the researcher. Application of the suggested models in chemical technology, energy and ecology is illustrated in the examples.
Thermal Transport for Applications in Micro/Nanomachining
The focus of this monograph is on thermal transport modeling at time and length scales ranging from micro- to nanoscale levels. It is intended to serve as a handy reference for students and researchers who work on numerical and theoretical aspects of thermal transport phenomena at micro- and nanoscales.
Thermal Stress Resistance of Materials
This book deals with the problem of a bearing capacity and fracture of thermally loaded materials. The treatise is based on extensive experimental and technological data of materials-development processes for high-temperature nuclear reactors and aerospace nuclear-rocket engines. New regularities and irregularities of fracture at various modes of local and combined thermal loading using electron-beam, induction and ionic-beam technique of heating, and also with traditional methods of measuring the thermal stress resistance are discussed. New criteria for the estimation of the bearing capacity of bodies in inhomogeneous fields of thermal and residual stresses are developed on the basis of fracture mechanics. Changes in the thermal stress resistance of carbides (ZrC, NbC, and SiC), graphite, Si3N4, Y2O3, Sc2O3 Al2O3 and single crystals of sapphire are considered. Possible technological methods for the improvement of thermal stress resistance are also presented.
Thermal Decomposition of Solids and Melts : New Thermochemical Approach to the Mechanism, Kinetics and Methodology
Thermal Decomposition of Solids and Melts describes the results of investigations into the mechanisms and kinetics involved in the thermal decomposition of solid and liquid substances via thermochemical analysis (TA). The main features of these thermal decomposition reactions are explained within and the observed anomalies are interpreted. New methods of TA measurement and calculation have been developed, which permit the precision and accuracy of determination of kinetic parameters to be increased substantially. Reliable kinetic characteristics have been obtained and the decomposition mechanisms for several substances have been interpreted.
Thermal behaviour, energy efficiency in buildings and sustainable construction
This Special Issue includes 20 contributions from across the world with very interesting and current research topics, such as insulation solutions and CO2 emissions; thermal transmittance of LSF walls; statistics for China's building energy consumption; natural ventilation; thermal behavior of an earthbag building; thermal performance and comfort in a vernacular building; overheating risk under future extreme weather conditions.
Thermal and Power Management of Integrated Circuits
In Thermal and Power Management of Integrated Circuits, power and thermal management issues in integrated circuits during normal operating conditions and stress operating conditions are addressed. Thermal management in VLSI circuits is becoming an integral part of the design, test, and manufacturing.
Thermal analysis of polymeric materials
"Thermal Analysis of Polymeric Materials" systematically treats macroscopic measurements by thermal analysis and the quantitative link to microscopic, molecular structure and mobility. Reversible and irreversible thermodynamics, kinetics, quantum mechanics, and statistical thermodynamics are the roots of the described thermal analysis. The book aims to broaden readers’ understanding of materials and the connection of flexible macromolecules (polymers) to small molecules and rigid macromolecules (minerals, salts, and metals). An effort is made to discover how the long, flexible molecules fit into their small phases which are characterized as microphases or nanophases. Their order ranges from amorphous to mesophase-like and crystalline. Ultimately, it is shown that the basic structure-property-processing triangle is connected to the better-known types of molecules and their common macroscopic phases.
Therapy Related Leukemia
As the population of cancer survivors continues to grow, there is a great need to term health of this population. Nearly one in five cancers -understand the longdiagnosed today occurs in an individual with a previous diagnosis of cancer, and cancers” are a leading cause of morbidity and mortality among these “second the etiology, prevention, and which reported esearchOur rcancer survivors. treatment of second cancers has the potential to improve public health, guide clinical management of survivors, and provide further insight into the mechanisms of carcinogenesis. Secondary cancer risk following radiotherapy and chemotherapy is an increasingly important topic in clinical oncology with impact on treatment decision making and on patient management. And one of the highest incidence was leukemia . Much of the evidence that underlies our understanding of secondary cancer risks and our risk estimates are derived from large epidemiologic studies that we will talk about it and predictive models of earlier decades with large uncertainties.



















