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212026 results in Engineering

Page 1 of 10602

Computer Networks

High Current ESD
  • Physics and Design
  • Charvaka Duvvury, Harald Gossner, Mayank Shrivastava
  • Coming soon
  • Expected online publication date:
    July 2026
    Print publication:
    31 July 2026
  • Synthesizing experience from industry and academia, this book offers a comprehensive and nuanced perspective on the Physics of Electrostatic Discharge (ESD) phenomena in a range of semiconductor device technologies, illustrating robust design practices. Starting with fundamental insights into high-current ESD behaviour in semiconductor devices, it gradually builds toward practical design principles and real-world reliability challenges in advanced CMOS, FinFETs, GaN HEMTs, carbon nanostructures and TFT technologies. Device-level physics and practical design implications are explored throughout, bridging the gap between deep theoretical understanding and real-world design constraints. Including unique simulation techniques alongside experimental results, this book thoroughly explores core ESD design principles. Including multiple curated case studies, this book will equip readers with all the tools needed to address current ESD design challenges and embrace covers the challenges of the future. A reliable and thought-provoking exploration, ideal for graduate students, industry professionals and researchers working in device physics, design, and reliability.

Systems Architecting Urban Infrastructure

The Physics of Interstellar Travel
  • Coryn A. L. Bailer-Jones
  • Coming soon
  • Expected online publication date:
    May 2026
    Print publication:
    31 May 2026
  • What is the physics behind getting a spacecraft to the nearest stars? What science can it do when it gets there? How can it send back data over enormous distances? Drawing on established physics, Coryn Bailer-Jones explores the various challenges of getting an uncrewed spacecraft to a nearby star within a human lifetime. In addition to propulsion methods such as nuclear rockets and laser sails, this book examines critical issues such as navigation, communication, and the interstellar medium. Starting from fundamental concepts, readers will learn how a broad spectrum of physics – ranging from relativity to optics, and thermodynamics to astronomy – can be applied to address this demanding problem. Assuming some familiarity with basic physics, this volume is a comprehensive and self-contained introduction to interstellar travel, and an indispensable guide for studying the literature on deep space exploration. This title is also available as open access on Cambridge Core.

Quantum Engineering
  • Theory and Design of Quantum Coherent Structures
  • 2nd edition
  • A. M. Zagoskin
  • Coming soon
  • Expected online publication date:
    May 2026
    Print publication:
    31 May 2026
  • 'Quantum Engineering' covers the theory, design, fabrication and applications of quantum coherent solid-state structures. This updated and expanded second edition provides a self-contained presentation of the theoretical methods and experimental results in both first and second waves of quantum technology innovation. Topics span the quantum theory of electric circuits, theoretical methods of quantum optics in application to solid-state circuits, the quantum theory of noise, decoherence and measurements, Landauer formalism for quantum transport, the physics of weak superconductivity and the physics of two-dimensional electron gas in semiconductor heterostructures. The author introduces microscopic ion- and defect-based qubits, currently among the most successful platforms for quantum computation and quantum sensing. Reflecting the significant progress of quantum hardware, state-of-the-art implementations such as quantum metamaterials and quantum reservoir computing are also added to the discussion. Written for graduate students in physics, this book also serves electronic engineers working in quantum engineering.

Fatigue Design of Marine Structures
  • 2nd edition
  • Inge Lotsberg
  • Coming soon
  • Expected online publication date:
    May 2026
    Print publication:
    31 May 2026
  • Failures in marine structures are often caused by the accumulation of small cyclic loads over time. This new edition provides engineers with the knowledge required to assess fatigue risk through long-term loading analysis and cyclic stress calculation. Real-world examples highlight the critical importance of fatigue design, including a detailed account of the Alexander L. Kielland platform collapse. Laboratory testing methods are explained, along with procedures for deriving fatigue capacity and design S-N curves. The book presents numerical techniques for generalising test data, including finite element methods for extracting hot spot stresses. New chapters address fatigue in large-diameter flanged connections and early-age cycling in grouted joints, reflecting developments in offshore wind turbine structures. Updated standards and expanded sections on bolted connections and fracture mechanics support safe and efficient design. An essential resource equipping engineers with the tools to prevent fatigue failures and improve structural integrity in demanding marine environments.

Accelerating Deep Neural Networks
  • Ryoma Sato
  • Coming soon
  • Expected online publication date:
    May 2026
    Print publication:
    31 May 2026
  • Deep learning models are powerful, but often large, slow, and expensive to run. This book is a practical guide to accelerating and compressing neural networks using proven techniques such as quantization, pruning, distillation, and fast architectures. It explains how and why these methods work, fostering a comprehensive understanding. Written for engineers, researchers, and advanced students, the book combines clear theoretical insights with hands-on PyTorch implementations and numerical results. Readers will learn how to reduce inference time and memory usage, lower deployment costs, and select the right acceleration strategy for their task. Whether you're working with large language models, vision systems, or edge devices, this book gives you the tools and intuition needed to build faster, leaner AI systems, without sacrificing performance. It is perfect for anyone who wants to go beyond intuition and take a principled approach to optimizing AI systems

Engineering Dynamics
  • 2nd edition
  • Jerry H. Ginsberg, Matthew S. Allen, Philip A. Voglewede
  • Coming soon
  • Expected online publication date:
    April 2026
    Print publication:
    30 April 2026
  • Fully revised and updated, the new edition of Engineering Dynamics provides a comprehensive, self-contained and accessible treatment of classical dynamics. All chapters have been reworked to enhance student understanding, and new features include a stronger emphasis on computational methods, including rich examples using both Matlab and Python; new capstone computational examples extend student understanding, including modelling the flight of a rocket and the unsteady rolling of a disk. The coverage of Lagrange's equations is improved, spanning simple systems and systems relevant to engineers. It provides students with clear, systematic methods for solving problems in dynamics, demonstrates how to solve equations of motion numerically, and explains all mathematical operators. Including over 150 real-world examples to motivate student learning, over 400 homework problems, and accompanied online by Matlab and Python repositories and supplemental material, the new edition of this classic is ideal for senior undergraduate and graduate students in engineering.

Microstructural Rheology of Complex Fluids
  • L. Gary Leal
  • Coming soon
  • Expected online publication date:
    April 2026
    Print publication:
    30 April 2026
  • Complex fluids can be found all around us, from molten plastics to mayonnaise, and understanding their highly non-linear dynamics is the subject of much research. This text introduces a common theoretical framework for understanding and predicting the flow behavior of complex fluids. This framework allows for results including a qualitative understanding of the relationship between a fluid's behavior at the microscale of particles or macromolecules, and its macroscopic, viscoelastic properties. The author uses a microstructural approach to derive constitutive theories that remain simple enough to allow computational predictions of complicated macroscale flows. Readers develop their intuition to learn how to approach the description of materials not covered in the book, as well as limits such as higher concentrations that require computational methods for microstructural analysis. This monograph's unique breadth and depth make it a valuable resource for researchers and graduate students in fluid mechanics.

Advances in Material Science and Applications
  • Bulk (Silicon) vs Nano (Graphene)
  • Volume 1, Basic Physics
  • S. S. Islam
  • Coming soon
  • Expected online publication date:
    March 2026
    Print publication:
    01 May 2027

Control Systems Theory
  • N Sukavanam
  • Coming soon
  • Expected online publication date:
    March 2026
    Print publication:
    01 May 2027

Elementary Cartesian Tensors

A Student's Guide to the Laws of Thermodynamics
  • Justin W. Garvin
  • Coming soon
  • Expected online publication date:
    March 2026
    Print publication:
    31 March 2026
  • Using a welcoming and conversational style, this Student's Guide takes readers on a tour of the laws of thermodynamics, highlighting their importance for a wide range of disciplines. It will be a valuable resource for self-guided learners, students, and instructors working in physics, engineering, chemistry, meteorology, climatology, cosmology, biology, and other scientific fields. The book discusses thermodynamic properties such as temperature, internal energy, and entropy, and develops the laws through primarily observational means without extensive reference to atomic principles. This classical approach allows students to get a handle on thermodynamics as an experimental science and prepares them for more advanced study of statistical mechanics, which is introduced in the final chapter. Detailed practical examples are used to illustrate the theoretical concepts, with a selection of problems included at the end of each chapter to facilitate learning. Solutions to these problems can be found online along with additional supplemental materials.

Random Vibrations
  • A Primer
  • Debasish Roy, G. Visweswara Rao
  • Coming soon
  • Expected online publication date:
    March 2026
    Print publication:
    31 May 2026
  • This textbook chart out an easy-to-comprehend account of the methods of random vibrations, aided by modern yet basic concepts in probability theory and random processes. It starts with a quick review of certain elements of structural dynamics, thus setting the stage for their seamless continuation in developing techniques for response analyses of structures under random environmental loads, such as winds and earthquakes. The book also offers a few glimpses of the powerful tools of stochastic processes to kindle the spirit of scientific inquiry. By way of applications, it contains numerous illustrative examples and exercises, many of which relate to practical design problems of interest to the industry. A companion website provides solutions to all the problems in the exercises. For the benefit of the prospective instructors, a semester-long schedule for offering a course on Random Vibrations is also suggested.

Transmission Lines
  • Equivalent Circuits, Electromagnetic Theory, and Photons
  • 2nd edition
  • Richard Collier
  • Coming soon
  • Expected online publication date:
    March 2026
    Print publication:
    31 March 2026
  • This accessible text, now in its second edition, explains the key principles of transmission lines using straightforward mathematics, extensive illustrations and practical worked examples. The early chapters use a lossless equivalent circuit to derive the basic theory, demonstrating how pulses and sine waves perform in simple transmission line circuits. Later chapters develop this model by demonstrating the derivation of circuit parameters, and the use of Maxwell's equations to extend this theory to major transmission lines. The second edition has been revised and expanded to emphasise the role of electromagnetic waves and photons in all transmission lines, providing valuable insight into the fundamental physics. New topics include sine waves in the time domain, multiple junctions, and attenuation in the presence of standing waves. Covering DC to optical frequencies, this book is an invaluable resource for students, researchers and professionals in electrical, microwave and optical engineering as well as applied physics.

Magnetism and Magnetic Materials
  • 2nd edition
  • J. M. D. Coey
  • Coming soon
  • Expected online publication date:
    March 2026
    Print publication:
    28 February 2026
  • The study of magnetism has driven progress in experimental science for centuries, and demonstrates how ground-breaking theoretical advances can be translated directly into essential, transformative technology. Now in an expanded second edition, this popular textbook provides comprehensive coverage of the theory and practical applications of magnetism and magnetic materials. The text has been updated throughout to address significant developments from the last decade, including new theoretical insights, advanced experimental probes, and thin film technology. A new chapter covers the important topic of transverse magnetotransport and effects of topology. The book is extensively illustrated with over 700 figures conveying important experimental data, concepts and applications, and each self-contained chapter concludes with a summary section, a list of further reading and a set of exercises. The text contains a wealth of useful information that will be of interest to graduate students and researchers in physics, materials science and engineering.

Materials Management
  • Sanjay Sharma
  • Coming soon
  • Expected online publication date:
    February 2026
    Print publication:
    31 March 2026
  • The field of materials management has its own significance in the industrial and business environment. This incorporates procurement as well as production of items. In this context, certain factors play very important role. A detailed understanding of these factors is necessary for knowing the implications pertaining to their variation among other issues. This book on Materials Management covers a good understanding of relevant conceptual topics and various parameters involved in the analysis of inventory situations. Several numericals, practical examples and cases are explained, considering relevant situation along with the different industrial and managerial aspects, making it a useful resource for students as well as instructors. It will also be helpful in generating various projects in engineering and allied management areas.

Advances in Material Science and Applications
  • Bulk (Silicon) vs Nano (Graphene)
  • Volume 2, Bulk (Silicon) vs Nano (Graphene)
  • S S Islam
  • Coming soon
  • Expected online publication date:
    February 2026
    Print publication:
    01 May 2027

Coding for Erasure Channels
  • Enrico Paolini, Gianluigi Liva, Balázs Matuz, Marco Chiani
  • Coming soon
  • Expected online publication date:
    February 2026
    Print publication:
    28 February 2026
  • Understand how to make wireless communication networks, digital storage systems and computer networks robust and reliable in the first unified, comprehensive treatment of erasure correcting codes. Data loss is unavoidable in modern computer networks; as such, data recovery can be crucial and these codes can play a central role. Through a focused, detailed approach, you will gain a solid understanding of the theory and the practical knowledge to analyze, design and implement erasure codes for future computer networks and digital storage systems. Starting with essential concepts from algebra and classical coding theory, the book provides specific code descriptions and efficient design methods, with practical applications and advanced techniques stemming from cutting-edge research. This is an accessible and self-contained reference, invaluable to both theorists and practitioners in electrical engineering, computer science and mathematics.

Analytical Aircraft Flight
  • Dynamics, Performance, Stability, and Control
  • Hugh H.-T. Liu
  • Coming soon
  • Expected online publication date:
    February 2026
    Print publication:
    29 January 2026
  • Master the principles of flight dynamics, performance, stability, and control with this comprehensive and self-contained textbook. A strong focus on analytical rigor, balancing theoretical derivations and case studies, equips students with a firm understanding of the links between formulae and results. Over 130 step-by-step examples and 130 end-of-chapter problems cement student understanding, with solutions available to instructors. Computational Matlab code is provided for all examples, enabling students to acquire hands-on understanding, and over 200 ground-up diagrams, from simple “paper plane” models through to real-world examples, draw from leading commercial aircraft. Introducing fundamental principles and advanced concepts within the same conceptual framework, and drawing on the author's over 20 years of teaching in the field, this textbook is ideal for senior undergraduate and graduate-level students across aerospace engineering.

Page 1 of 10602