Hands-On Introduction to LabVIEW for Scientists and Engineers
ISBN-13:
9780190211899
ISBN-10:
019021189X
Edition:
3
Author:
John Essick
Publication date:
2015
Publisher:
Oxford University Press
Format:
Paperback
668 pages
FREE US shipping
Book details
ISBN-13:
9780190211899
ISBN-10:
019021189X
Edition:
3
Author:
John Essick
Publication date:
2015
Publisher:
Oxford University Press
Format:
Paperback
668 pages
Summary
Hands-On Introduction to LabVIEW for Scientists and Engineers (ISBN-13: 9780190211899 and ISBN-10: 019021189X), written by authors
John Essick, was published by Oxford University Press in 2015.
With an overall rating of 3.8 stars, it's a notable title among other
Computer Science
(Graphics & Design, Graphics & Multimedia, Programming, Software Design, Testing & Engineering, Microscopy, Physics, Higher & Continuing Education) books. You can easily purchase or rent Hands-On Introduction to LabVIEW for Scientists and Engineers (Paperback) from BooksRun,
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Description
Hands-On Introduction to LabVIEW for Scientists and Engineers, Third Edition, explores practical programming solutions for carrying out interesting and relevant projects. Readers--who are assumed to have no prior computer programming or LabVIEW background--will begin writing meaningful programs in the first few pages.
Improvements to the Third Edition: This new edition includes the following improvements:
* All chapters are fully updated to the latest version of LabVIEW. DAQ hardware now commonly used in instructional laboratories and self-learning is highlighted.
* For easy reference, seven chapters begin with a "Basics" section that explains the fundamental operation of the LabVIEW function covered in that chapter [Chapters 2, 3, 4, 7, 8, 9, 12].
* A new first chapter offers focused introduction to the LabVIEW programming environment. Readers construct a simple program to detect whether a given integer is even or odd [Chapter 1].
* Coverage of LabVIEW's text-based functions is given for both the MathScript Node and Formula Node [Chapter 4 and Appendix A].
* Shift register usage is illustrated through a signal-averaging program (replacing the numerical integration and differentiation programs used in previous editions) [Chapter 7].
* State machine program architecture is now taught in the case structure chapter (replacing the numerical integration program used in previous editions). Readers construct a state-machine guessing game and a digital oscilloscope with runtime control [Chapter 8].
* A nonlinear curve fitting example is included in the text [Chapter 10].
* The fast Fourier transform chapter opens with an Express VI-based "Quick Example" section, which gives a concise introduction to the digital spectral analysis topics of leakage and windowing. High-level mathematical coverage of these topics is moved to an appendix [Chapter 11 and Appendix B].
* The proportional-integral-derivative temperature control project is now given in an appendix [Appendix C].
* About 20 new end-of-the-chapter problems appear throughout the book.
More information about this book can be found here:
reed.edu/physics/faculty/essick/labview.html
global.oup.com/academic/product/hands-on-introduction-to-labview-for-scientists-and-engineers-9780190211899?cc=us&lang=en
Improvements to the Third Edition: This new edition includes the following improvements:
* All chapters are fully updated to the latest version of LabVIEW. DAQ hardware now commonly used in instructional laboratories and self-learning is highlighted.
* For easy reference, seven chapters begin with a "Basics" section that explains the fundamental operation of the LabVIEW function covered in that chapter [Chapters 2, 3, 4, 7, 8, 9, 12].
* A new first chapter offers focused introduction to the LabVIEW programming environment. Readers construct a simple program to detect whether a given integer is even or odd [Chapter 1].
* Coverage of LabVIEW's text-based functions is given for both the MathScript Node and Formula Node [Chapter 4 and Appendix A].
* Shift register usage is illustrated through a signal-averaging program (replacing the numerical integration and differentiation programs used in previous editions) [Chapter 7].
* State machine program architecture is now taught in the case structure chapter (replacing the numerical integration program used in previous editions). Readers construct a state-machine guessing game and a digital oscilloscope with runtime control [Chapter 8].
* A nonlinear curve fitting example is included in the text [Chapter 10].
* The fast Fourier transform chapter opens with an Express VI-based "Quick Example" section, which gives a concise introduction to the digital spectral analysis topics of leakage and windowing. High-level mathematical coverage of these topics is moved to an appendix [Chapter 11 and Appendix B].
* The proportional-integral-derivative temperature control project is now given in an appendix [Appendix C].
* About 20 new end-of-the-chapter problems appear throughout the book.
More information about this book can be found here:
reed.edu/physics/faculty/essick/labview.html
global.oup.com/academic/product/hands-on-introduction-to-labview-for-scientists-and-engineers-9780190211899?cc=us&lang=en
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