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Books on the topic 'Interface Builder'

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Published: 4 June 2021
Last updated: 9 February 2022

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1

Moore, Richard. The design and implementation of an interactive user interface builder for the Motif widget set. Manchester: University of Manchester, Department of Computer Science, 1996.

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2

Build your own universal computer interface. 2nd ed. New York: McGraw-Hill, 1997.

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3

Build your own universal computer interface. Blue Ridge Summit, PA: Tab Books, 1989.

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4

Inc, ebrary, ed. Silverlight 4 user interface cookbook: Build and implement rich, standard-friendly user interfaces with Silverlight and Expression Blend. Birmingham: Packt, 2010.

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5

Ciriaco, Castro Díez, and Jaworski Przemek, eds. Arduino and Kinect projects: Design, build, blow their minds. New York, N.Y: Apress, 2012.

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6

service), ScienceDirect (Online, ed. Data visualization with Flash builder: Designing RIA and AIR applications with remote data sources. Burlington, MA: Focal Press, 2011.

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7

Ramsay, C. N. (Colin N.), Blades Steve, and ebrary Inc, eds. Learning Ext JS: Build dynamic, desktop-style user interfaces for your data-driven Web applications. Birmingham, U.K: Packt Pub., 2008.

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8

Cameron, Albert, and ebrary Inc, eds. Microsoft Silverlight 4 business application development: Beginner's guide : build enterprise-ready business applications with Silverlight. Birmingham, U.K: Packt Pub., 2010.

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9

Inc, ebrary, ed. Learning Ext JS 3.2: Build dynamic, desktop-style user interfaces for your data-driven web applications using Ext JS. Birmingham [U.K.]: Packt Pub., 2010.

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10

Isaacs, Ellen. Designing from both sides of the screen: How designers and engineers can collaborate to build cooperative technology. Indianapolis, Ind: New Riders, 2002.

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11

Melgar, Enrique Ramos. Arduino and Kinect Projects: Design, Build, Blow Their Minds. Berkeley, CA: Apress, 2012.

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12

Isaacs, Ellen. Designing from both sides of the screen: How designers and engineers can collaborate to build cooperative technology. Indianapolis, Ind: New Riders, 2002.

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13

1961-, Morgan David P., ed. How to build a speech recognition application: A style guide for telephony dialogues. 2nd ed. San Ramon, Calif: EIG Press, 2001.

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14

Rocchi, Cesare. Flash Builder @ Work: Customizing the User interface. Routledge, 2012. http://dx.doi.org/10.4324/9780240816692.

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15

Custom Raspberry Pi Interfaces: Design and build hardware interfaces for the Raspberry Pi. Apress, 2017.

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16

High Performance JavaScript: Build Faster Web Application Interfaces. O'Reilly Media, 2010.

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17

Build Chatbot Interactions: Responsive, Intuitive Interfaces with Ruby. Pragmatic Programmers, LLC, The, 2019.

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18

Inc, Phar Lap Software, ed. Windows interface guide: How to build a visual basic graphical user interface for TNT DOS-extender applications. Cambridge, MA (40 Aberdeen Ave., Cambridge 02138): Phar Lap Software, 1994.

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19

Group, CDE Documentation, and Common Desktop Environment Documentation. Common Desktop Environment 1.0: Application Builder User's Guide (Common Desktop Environment 1.0). Addison Wesley Publishing Company, 1995.

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20

Flex 3 Component Solutions Build Amazing Interfaces With Flex Components. Friends of ED, 2008.

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21

Mearns, Ben. Expert GeoServer: Build and secure advanced interfaces and interactive maps. Packt Publishing, 2018.

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22

Herrington, Jack. Flex 3 Component Solutions: Build Amazing Interfaces with Flex Components. Apress, 2010.

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23

Oracle Mobile Application Framework Developer Guide: Build Multiplatform Enterprise Mobile Apps. McGraw-Hill Education, 2014.

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24

Kunz, Gion. Mastering Angular Components: Build component-based user interfaces using Angular, 2nd Edition. Packt Publishing, 2018.

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25

Eng, Lee Zhi. Qt5 C++ GUI Programming Cookbook: Design and build a functional, appealing, and user-friendly graphical user interface. Packt Publishing - ebooks Account, 2016.

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26

Confessions of a Radical Industrialist: How Interface Proved That You Can Build a Successful Business Without Destroying the Planet. Penguin Random House, 2011.

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27

Lee, Henry. Voice User Interface Projects: Build voice-enabled applications using Dialogflow for Google Home and Alexa Skills Kit for Amazon Echo. Packt Publishing - ebooks Account, 2018.

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28

Harding, Duncan. Deconstructing the Interview. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780198768197.001.0001.

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The professional interview is a charged psychological encounter and hurdle, necessary for all of us to traverse in order to move on in our lives and careers. The interviewer is the gatekeeper who holds the keys to our brighter future. This book is a detailed examination of the interview experience and our role as the interviewee within it. This book does not consider the content required for any given interview; instead, it looks in detail at the interview processes and performance from a psychological perspective in order to be the best we can be. Deconstructing the Interview teaches a way of mindfully connecting with the interview space, operating externally in the room, and guiding our answers and performance with situational awareness and an enhanced understanding of the psychological factors at play. As well as communication skills, both verbal and non-verbal, this book considers in detail our interface with the external world around us; to improve and refine our interview skills, and to operate in the room as our true authentic selves. Here we accept and embrace anxiety as an essential part of this process, and we choose to be ‘mindfully anxious’. This book breaks down the interview stage and its players from a psychological perspective, and helps the reader build interview skills from the ground up. This is a new and novel approach in helping the reader prepare for the interview process, and builds on the author’s previous book in this series (Deconstructing the OSCE, 2014, OUP).
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29

Sundararaman, T., and Rajani Ved. Innovations in the Organization of Public Health Services for Rural and Remote Parts of India. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780199476084.003.0007.

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Facilitated by the National Rural Health Mission, the last decade has witnessed a number of innovations in the delivery of public health services in India. The pathways by which innovations happened are categorised into three groups: (a) identifying ‘best practices’ which are then scaled up; (b) the effort to build viable business models; and (c) driven by policy-level prioritization. Seventeen brief case studies are presented illustrating the variety of innovations and innovation pathways that exist, and an attempt is made to elucidate the general features of successful innovation. Innovations driven by critical problem-solving, dedicated innovators, and developments in technology with ability to manage its social interface do better. We also note that, despite much attention to transformational or disruptive innovations, it is home grown incremental innovations that have held sway.
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30

Ballester, Belén Rubio. Neurorehabilitation. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780199674923.003.0059.

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This chapter considers the ability of the damaged brain to reorganize following trauma and how this can be facilitated through interaction with virtual reality or robotic technologies. Stroke represents one of the main causes of adult disability and will be one of the main contributors to the burden of disease in by 2030. In this chapter we first review the main neuroscientific principles of recovery. Second, we explore the some of the latest technological approaches for neurorehabilitation, such as assistive exoskeletons and virtual reality systems. We describe a new virtual reality gaming system (RGS) that combines training scenarios with dedicated interface devices to optimize motor and cognitive training. RGS builds on theories of brain plasticity, thus we show how a living machines perspective can be used to create practical and useful systems that address a significant societal need. Finally, we comment on the broader advantages and potential applications of VR to maximize recovery.
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31

Oulasvirta, Antti, Per Ola Kristensson, Xiaojun Bi, and Andrew Howes, eds. Computational Interaction. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198799603.001.0001.

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This book presents computational interaction as an approach to explaining and enhancing the interaction between humans and information technology. Computational interaction applies abstraction, automation, and analysis to inform our understanding of the structure of interaction and also to inform the design of the software that drives new and exciting human-computer interfaces. The methods of computational interaction allow, for example, designers to identify user interfaces that are optimal against some objective criteria. They also allow software engineers to build interactive systems that adapt their behaviour to better suit individual capacities and preferences. Embedded in an iterative design process, computational interaction has the potential to complement human strengths and provide methods for generating inspiring and elegant designs. Computational interaction does not exclude the messy and complicated behaviour of humans, rather it embraces it by, for example, using models that are sensitive to uncertainty and that capture subtle variations between individual users. It also promotes the idea that there are many aspects of interaction that can be augmented by algorithms. This book introduces computational interaction design to the reader by exploring a wide range of computational interaction techniques, strategies and methods. It explains how techniques such as optimisation, economic modelling, machine learning, control theory, formal methods, cognitive models and statistical language processing can be used to model interaction and design more expressive, efficient and versatile interaction.
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32

Janarthanam, Srini. Hands-On Chatbots and Conversational UI Development: Build chatbots and voice user interfaces with Chatfuel, Dialogflow, Microsoft Bot Framework, Twilio, and Alexa Skills. Packt Publishing, 2017.

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33

Vučković, Jelena. Quantum optics and cavity QED with quantum dots in photonic crystals. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198768609.003.0008.

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Quantum dots in optical nanocavities are interesting as a test-bed for fundamental studies of light–matter interaction (cavity quantum electrodynamics, QED), as well as an integrated platform for information processing. As a result of the strong field localization inside sub-cubic-wavelength volumes, these dots enable very large emitter–field interaction strengths. In addition to their use in the study of new regimes of cavity QED, they can also be employed to build devices for quantum information processing, such as ultrafast quantum gates, non-classical light sources, and spin–photon interfaces. Beside quantum information systems, many classical information processing devices, such as lasers and modulators, benefit greatly from the enhanced light–matter interaction in such structures. This chapter gives an introduction to quantum dots, photonic crystal resonators, cavity QED, and quantum optics on this platform, as well as possible device applications.
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34

De Souza, Jonathan. Music at Hand. Oxford University Press, 2017. http://dx.doi.org/10.1093/acprof:oso/9780190271114.001.0001.

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Musical instruments ground players’ actions and the sounds they create. Yet this book further claims that instruments mediate perception and imagination. Practicing an instrument builds bodily skills, while also fostering auditory-motor connections in players’ brains. These intersensory links reflect the ways that a particular instrument converts action into sound, the ways that it coordinates tonal and physical space. Reactivated in various ways, these connections can influence instrumentalists’ listening, improvisation, and composition. To investigate these effects, the book engages both classical and popular styles, from Bach to electronic music, from Beethoven to the blues. It uses Lewinian transformational theory to model instrumental interfaces and to analyze patterns of body-instrument interaction. Though based in music theory and analysis, the book also draws on psychology, including cognitive neuroscience, and the phenomenological philosophy of Maurice Merleau-Ponty and Martin Heidegger. Ultimately, it argues that music cognition is not simply embodied; it is also conditioned by musical technology.
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35

Isaacs, Ellen, and Alan Walendowski. Designing from Both Sides of the Screen: How Designers and Engineers Can Collaborate to Build Cooperative Technology. Sams, 2001.

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36

Morgan, David P., and Bruce Balentine. How to Build a Speech Recognition Application: Second Edition: A Style Guide for Telephony Dialogues. 2nd ed. Enterprise Integration Group, 2001.

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37

Azzopardi, Leif, and Guido Zuccon. Economic Models of Interaction. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198799603.003.0012.

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This chapter provides a tutorial on how economics can be used to model the interaction between users and systems. Economic theory provides an intuitive and natural way to model Human-Computer Interaction which enables the prediction and explanation of user behaviour. A central tenet of the approach is the utility maximisation paradigm where it is assumed that users seek to maximise their profit/benefit subject to budget and other constraints when interacting with a system. By using such models it is possible to reason about user behaviour and make predictions about how changes to the interface or the users interactions will affect performance and behaviour. In this chapter, we describe and develop several economic models relating to how users search for information. While the examples are specific to Information Seeking and Retrieval, the techniques employed can be applied more generally to other human-computer interaction scenarios. Therefore, the goal of this chapter is to provide an introduction and overview of how to build economic models of human-computer interaction that generate testable hypotheses regarding user behaviour which can be used to guide design and inform experimentation.
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38

Foucault Welles, Brooke, and Sandra González-Bailón, eds. The Oxford Handbook of Networked Communication. Oxford University Press, 2018. http://dx.doi.org/10.1093/oxfordhb/9780190460518.001.0001.

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Communication technologies, including the Internet, social media, and countless online applications, create the infrastructure and interface through which many of our interactions take place today. This form of networked communication creates new questions about how we establish relationships, engage in public, build a sense of identity, and delimit the private domain. Digital technologies have also enabled new ways of observing the world; many of our daily interactions leave a digital trail that, if followed, can help us unravel the rhythms of social life and the complexity of the world we inhabit, including dynamics of change. The analysis of digital data requires partnerships across disciplinary boundaries that–although on the rise–are still uncommon. Social scientists, computer scientists, network scientists, and others have never been closer to their goal of trying to understand communication dynamics, but there are not many venues in which they can engage in an open exchange of methods and theoretical insights. This book opens that space and creates a platform to integrate the knowledge produced in different academic silos so that we can address the big puzzles that beat at the heart of social life in this networked age.
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39

Penrose, Angela. No Ordinary Woman. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198753940.001.0001.

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Edith Penrose was a creative thinker, a distinguished economist, and an inspirational teacher who profoundly challenged the prevailing orthodoxy in several fields, including micro-economics, business studies, and development economics. Her major contribution to the field of economics was The Theory of the Growth of the Firm (1959), now regarded as a classic that has ‘inspired thinking in strategy, entrepreneurship, knowledge creation, and innovation’. Edith Penrose’s approach to explaining the nature of the firm, her fundamental insights, and the concepts she developed are still being applied and extended to new fields of enquiry. She has had a major influence on the study of the business enterprise and, some argue, the economy itself. She had a distinguished academic and public service career and wrote over 100 books and articles, many of which are devoted to the understanding of the interface between the strategies and activities of multinational enterprises, including the oil industry, and the nation states—particularly the developing countries—in which they operated. This is the first biography of Edith Penrose drawing on unpublished diaries and letters, the personal memories of her family, friends, and colleagues, and describes her eventful life, her extensive output, and influence. The book tells her personal and professional story, weaving through the extraordinary upheavals of the twentieth century in which she played a part. The book builds a picture of a vital, energetic woman who lived life to the full, defied convention, made an impression on all who met her, and left a significant intellectual legacy.
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40

Wilson, Robyn S., Sarah M. McCaffrey, and Eric Toman. Wildfire Communication and Climate Risk Mitigation. Oxford University Press, 2017. http://dx.doi.org/10.1093/acrefore/9780190228620.013.570.

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Throughout the late 19th century and most of the 20th century, risks associated with wildfire were addressed by suppressing fires as quickly as possible. However, by the 1960s, it became clear that fire exclusion policies were having adverse effects on ecological health, as well as contributing to larger and more damaging wildfires over time. Although federal fire policy has changed to allow fire to be used as a management tool on the landscape, this change has been slow to take place, while the number of people living in high-risk wildland–urban interface communities continues to increase. Under a variety of climate scenarios, in particular for states in the western United States, it is expected that the frequency and severity of fires will continue to increase, posing even greater risks to local communities and regional economies.Resource managers and public safety officials are increasingly aware of the need for strategic communication to both encourage appropriate risk mitigation behavior at the household level, as well as build continued public support for the use of fire as a management tool aimed at reducing future wildfire risk. Household decision making encompasses both proactively engaging in risk mitigation activities on private property, as well as taking appropriate action during a wildfire event to protect personal safety. Very little research has directly explored the connection between climate-related beliefs, wildfire risk perception, and action; however, the limited existing research suggests that climate-related beliefs have little direct effect on wildfire-related action. Instead, action appears to depend on understanding the benefits of different mitigation actions and in engaging the public in interactive, participatory communication programs that build trust between the public and natural resource managers. A relatively new line of research focuses on resource managers as critical decision makers in the risk management process, pointing to the need to thoughtfully engage audiences other than the lay public to improve risk management.Ultimately, improving the decision making of both the public and managers charged with mitigating the risks associated with wildfire can be achieved by carefully addressing several common themes from the literature. These themes are to (1) promote increased efficacy through interactive learning, (2) build trust and capacity through social interaction, (3) account for behavioral constraints and barriers to action, and (4) facilitate thoughtful consideration of risk-benefit tradeoffs. Careful attention to these challenges will improve the likelihood of successfully managing the increasing risks that wildfire poses to the public and ecosystems alike in a changing climate.
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41

Knaack, Ulrich, and Jens Schneider. POWERSKIN CONFERENCE PROCEEDINGS. Edited by Thomas Auer. TU Delft Open, 2021. http://dx.doi.org/10.47982/bookrxiv.27.

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The building skin has evolved enormously over the past decades. The energy performance and environmental quality of both the interior and exterior of buildings are primarily determined by the building envelope. The façade has experienced a change in its role as an adaptive climate control system that leverages the synergies between form, material, mechanical and energy systems towards an architectural integration of energy generation. The PowerSKIN Conference aims to address the role of building skins to accomplish a carbonneutral building stock. The focus of the PowerSKIN issue 2021 deals with the question of whether simplicity and robustness stay in contradiction to good performance of buildings skins or whether they even complement each other: simplicity vs performance? As an international scientific event - usually held at the BAU trade fair in Munich - the PowerSKIN Conference builds a bridge between science and practice, between research and construction, and between the latest developments and innovations for the façade of the future. Topics such as building operation, embodied energy, energy generation and storage in the context of the three conference sessions envelope, energy and environment are considered: – Envelope: The building envelope as an interface for the interaction between indoor and outdoor environment. This topic is focused on function, technical development and material properties. – Energy: New concepts, accomplished projects, and visions for the interaction between building structure, envelope and energy technologies. – Environment: Façades or elements of façades, which aim to provide highly comfortable surroundings where environmental control strategies as well as energy generation and/or storage are an integrated part of an active skin. The Technical University of Munich, TU Darmstadt, and TU Delft are signing responsible for the organisation of the conference. It is the third event of a biennial series: April 9th 2021, architects, engineers, and scientists present their latest developments and research projects for public discussion and reflection. For the first time, the conference will be a virtual event. On the one hand, this is a pity, as conferences are also about meeting people and social interaction; on the other hand, it offers the possibility that we can reach more people who connect from all over the world.
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42

Tiwari, Sandip. Nanoscale Device Physics. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198759874.001.0001.

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Nanoscale devices are distinguishable from the larger microscale devices in their specific dependence on physical phenomena and effects that are central to their operation. The size change manifests itself through changes in importance of the phenomena and effects that become dominant and the changes in scale of underlying energetics and response. Examples of these include classical effects such as single electron effects, quantum effects such as the states accessible as well as their properties; ensemble effects ranging from consequences of the laws of numbers to changes in properties arising from different magnitudes of the inter-actions, and others. These interactions, with the limits placed on size, make not just electronic, but also magnetic, optical and mechanical behavior interesting, important and useful. Connecting these properties to the behavior of devices is the focus of this textbook. Description of the book series: This collection of four textbooks in the Electroscience series span the undergraduate-to-graduate education in electrosciences for engineering and science students. It culminates in a comprehensive under-standing of nanoscale devices—electronic, magnetic, mechanical and optical in the 4th volume, and builds to it through volumes devoted to underlying semiconductor and solid-state physics with an emphasis on phenomena at surfaces and interfaces, energy interaction, and fluctuations; a volume devoted to the understanding of the variety of devices through classical microelectronic approach, and an engineering-focused understanding of principles of quantum, statistical and information mechanics. The goal is provide, with rigor and comprehensiveness, an exposure to the breadth of knowledge and interconnections therein in this subject area that derives equally from sciences and engineering. By completing this through four integrated texts, it circumvents what is taught ad hoc and incompletely in a larger number of courses, or not taught at all. A four course set makes it possible for the teaching curriculum to be more comprehensive in this and related advancing areas of technology. It ends at a very modern point, where researchers in the subject area would also find the discussion and details an important reference source.
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