Gør som tusindvis af andre bogelskere
Tilmeld dig nyhedsbrevet og få gode tilbud og inspiration til din næste læsning.
Ved tilmelding accepterer du vores persondatapolitik.Du kan altid afmelde dig igen.
This book provides a comprehensive overview of the principles of optical imaging. Targeted at optics and photonics students, it offers a thorough introduction to the field and equips the reader with hands-on training via multiple exercises and case studies.
The book explains to the reader the necessary considerations and modelling ideas required for the successful design of optical imaging systems incorporating diffractive surfaces.
This book provides an overview of Aurivillius phase layer structured ferroelectrics, with a focus on in-depth classification of layer structured materials and their role in developing environmentally sustainable compounds. It is an essential reference for professionals and academics working in the field of electroceramics, electronic component manufacture, materials science and engineering.
This book provides a concise introduction to computer vision for optical researchers and scientists. Building from the optical foundations of image processing and the science behind camera sensors, Optics and Artificial Vision equips the reader with the tools needed to understand and engage with digital image processing, the algorithms of optical flow and the algorithms of object detection, using Python® software to show real, implemented applications in industry. Ideal for industry engineers with projects related to computer vision, as well as a good reference text for academics, students and other researchers working at the intersection of artificial intelligence and optics.Key FeaturesProvides a concise introduction to artificial visionMain algorithms in computer vision are presented, step-by-step in a pedagogical wayPresents all algorithms in PythonShows real implemented applications in industryOptical foundations of image processing are presented
This book is a comprehensive guide to the current state-of-the-art science and technology involved in the analysis and development of gamma-ray nuclear materials for commercial, medical, industrial, military and space applications. It reviews the current and upcoming materials and material-based technologies for gamma-ray detectors, as well as their growth process in various forms, such as single crystals, films, and ceramics. Thoroughly compiled, it is ideal for graduate students, engineers, technicians, scientists and managers. It brings to both novice and advanced readers all the topics required to jump-start investigations on gamma-ray materials and their growth. Key Features: Provides the state-of-the-art in this rapidly evolving domain with a focus on third generation crystals for nuclear radiation detectors The only book to cover fundamentals, applications, and the latest research results Includes processing techniques and discusses the applications of nuclear detectors Discusses potential materials that can be used in nuclear detection Presents the future of nuclear detectors
As a broad area of science and technology, modeling and computational photonics is an ever-growing and developing topic. Covering the crucial foundations of photonics, as well as delving into the more complex aspects of the field, Modeling and Design Photonics by Examples with MATLAB(R) is a comprehensive study of computational photonics that will bridge the gap between academic and industrial worlds. Using MATLAB(R) code to help provide solutions, this book will help readers to use modelling as an effective tool for designing and optimizing photonic systems.Key FeaturesBridges the gap between academic descriptions and real modeling works in photonics.Provides details of physics and mathematical models of the problems.Includes MATLAB(R) codes for some important problems that are still new to many readers.Presents detailed explanations of the physics and solutions from the modeling results.Helps readers to use modeling as a tool for designing and optimizing photonics systems.
The purpose of this textbook is to provide the necessary science overview of optical design detection essentials but in a context of use applied to the design process. Application case studies are included to illustrate one or more practical concepts as well as example problems and end-of-chapter problems.
A must-read for researchers, graduate students and industry professionals who work in the VLC field, this book investigates the suitability of VLC for vehicular communications from a fundamental wireless communication standpoint. Mathematically accurate channel models are developed, and advanced signal processing approaches to overcome challenges such as sunlight interference, shadowing and fast changing channels are described. Results are verified through simulation with realistic parameters.
This book offers an overview of the state-of-the-art of visible light communication systems across emerging areas of increasing importance within the field. It is divided into two parts, with the first describing the latest developments in data communication using VLC technologies. It includes the fundamental mechanics of the semiconductor light-emitting diodes (LEDs) used in academic and commercial systems, areas of high-speed circuit design including circuit diagrams and small-signal analysis. Exotic modulation formats and digital signal processing including machine learning architectures are then covered before the book looks at emerging areas within the VLC research community, including colour balancing and colour-based modulation. The second part of the book looks at applications that do not consider indoor data communication in general, such as localisation/positioning, sensing and the intelligent transport systems paradigm. Finally, the completely new area of oxygen sensing is also included with the aim of inspiring researchers to test news fields and apply ideas across domains.Visible Light is aimed at new researchers entering the VLC domain, particularly at the PhD stage, or those wishing to explore new areas within it, and readers should be comfortable with undergraduate-level mathematics and physics to make the most of the derivations and descriptions written throughout the book. It will provide researchers with a solid summary of the global progress in VLC systems that can be used to generate new ideas and advancements in the field.Key FeaturesA new approach to VLC literature: describing both communications and new applicationsEnables interdisciplinary new approaches to research and industry through the collection of ideas from separate disciplines that researchers and industrialists may not be aware ofDiscussion of technological enablers from semiconductor materials, through to devices, circuits, systems and applications: the first book on the subject to do soThe first book that brings healthcare sensing to the general VLC community, potentially adding significant value to the research community through ideas generation and awareness of literatureA reference text for researchers and industrialists to discover immediately any of the key advances in the field from any subdomain, enabling off-the-shelf knowledge generation
Advances in Optical Surface Texture Metrology covers the latest advances in the development of optical surface texture measuring instruments. Rather than concentrate on the basic principles of the optical measurement methods, this book takes a deeper dive into the operation of the instruments and the new application areas where they can be applied, with an emphasis on advanced manufacturing. Latest advances discussed will include the drive towards faster instruments for in-process applications, the ability to measure highly complex surfaces (in e.g. additive manufacturing) and advances in the use of machine learning to enhance data analysis. Key FeaturesCutting-edge advances in the fieldNew ISO framework for calibrationIncludes advances in artificial intelligenceIncludes advances in in-process measurement
This second edition of Lens Design: Automatic and quasi-autonomous computational methods and techniques shows how these new tools can design systems in minutes that would have required weeks or months of labor using older methods.Powerful search routines that can quickly produce excellent designs starting with plane-parallel plates are described. The principles are explained, and data files are provided so the user can duplicate these systems and learn how to use the new software to solve unexpected problems should they occur. Automatic substitution of real glass types for a glass model, and automatic matching to the testplates of a selected vendor are fully explained with examples.Key FeaturesDiscusses the pros and cons of traditional design tools and the role of aberration theory todayExplains the topology of the lens design landscape and why there are many different solutionsShows how to quickly achieve many potential solutions and how to select a preferred solutionDescribes tools for modifying a lens form by automatically inserting or deleting elementsLists a variety of tips and ideas that resulted from 50 years of experience
Advances in Optical Form and Coordinate Metrology covers the latest advances in the development of optical form and coordinate measuring instruments plus the manipulation of point cloud data. The book presents some basic principles of the optical measurement methods and takes a deeper look at the operation of the instruments and the new application areas where they can be applied, with an emphasis on advanced manufacturing. Latest advances discussed include the drive towards faster instruments for in-process applications, the ability to measure highly complex objects (e.g. in additive manufacturing), performance verification and advances in the use of machine learning to enhance data analysis.Key FeaturesProvides cutting-edge advances in the fieldIncludes new ISO framework for performance verificationPresents advances in artificial intelligenceIncludes advances in in-process measurementDiscusses a forward look at calibration
This book introduces the quantum statistical methods used in quantum physics and is an essential guide for any student beginning their studies in quantum physics.
With introductory material to make the subject area accessible to non-specialists such as graduate and PhD students, and researchers working in other areas where extreme waves are relevant, this book features contributions by prominent scientists in this emerging field and is a comprehensive treatment of optical extreme wave research.
This book provides an overview of the detailed physics involved in the imaging chain for an audience of scientists and engineers. With the increasing use of digital photography in a research environment, modern scientists and engineers need to better understand the science behind digital photography to fully exploit this invaluable research tool.
This book on the laboratory teaching of optics is based on the author's experience during many years in several universities and colleges. It describes basic experiments in optics that are suitable for student laboratories at undergraduate and graduate levels and do not require specialized equipment or measurement techniques.
Lens Design: Automatic and quasi-autonomous computational methods and techniques is the first book that interactively describes the newest lens design tools. Detailing design methods for a variety of lens forms, this book shows that fixed focus and zoom lenses can be optimized, and it will help experienced and aspiring lens designers to develop excellent designs henceforth.
Tilmeld dig nyhedsbrevet og få gode tilbud og inspiration til din næste læsning.
Ved tilmelding accepterer du vores persondatapolitik.