Introduction to Applied Linear Algebra 在线电子书 pdf 下载 txt下载 epub 下载 mobi 下载 2024


Introduction to Applied Linear Algebra

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Stephen Boyd 作者
Cambridge University Press
译者
2018-6-7 出版日期
474 页数
GBP 35.99 价格
Hardcover
丛书系列
9781316518960 图书编码

Introduction to Applied Linear Algebra 在线电子书 图书标签: 线性代数  数学  Math  Algebra  数据科学  美國  數學  代数   


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发表于2024-12-22


Introduction to Applied Linear Algebra 在线电子书 epub 下载 mobi 下载 pdf 下载 txt 下载 2024

Introduction to Applied Linear Algebra 在线电子书 epub 下载 mobi 下载 pdf 下载 txt 下载 2024

Introduction to Applied Linear Algebra 在线电子书 pdf 下载 txt下载 epub 下载 mobi 下载 2024



Introduction to Applied Linear Algebra 在线电子书 用户评价

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Convex Optimization作者的新书,翻了后半部分的各种least square。内容有点简单了,入门也许是不错的教材。可能是我已经被老师洗脑了,感觉不讲SVD,子空间和投影就不算(应用)线性代数了。

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挺有趣的科目,应用非常奇妙。有空继续研究。

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跟Prof Stephen Boyd的EE263 Introduction to Linear Dynamical Systems一起服用。https://www.bilibili.com/video/av38374012/?p=1 效果甚佳!还有比自由自在清净学习更好的十一假期了吗?10.03.2019 读完,本书只cover到ee263的前9节课。10.16.2019终于上完了整个ee263!11.20.2019

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挺有趣的科目,应用非常奇妙。有空继续研究。

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相当好的应用代数书。least square非常好。如果想学线性代数,还是乖乖地去学更加理论一点的书。

Introduction to Applied Linear Algebra 在线电子书 著者简介

Stephen P. Boyd is the Samsung Professor of Engineering, and Professor of Electrical Engineering at Stanford University with courtesy appointments in the Department of Computer Science, and the Department of Management Science and Engineering. He is the co-author ofConvex Optimization, written with Lieven Vandenberghe and published by Cambridge University Press in 2004.

Lieven Vandenberghe is a Professor in the Electrical and Computer Engineering Department at UCLA, with a joint appointment in the Department of Mathematics. He is the co-author, with Stephen Boyd, of Convex Optimization (Cambridge, 2004).


Introduction to Applied Linear Algebra 在线电子书 图书目录


Introduction to Applied Linear Algebra 在线电子书 pdf 下载 txt下载 epub 下载 mobi 在线电子书下载

Introduction to Applied Linear Algebra 在线电子书 图书描述

This book is meant to provide an introduction to vectors, matrices, and least squares methods, basic topics in applied linear algebra. Our goal is to give the beginning student, with little or no prior exposure to linear algebra, a good grounding in the basic ideas, as well as an appreciation for how they are used in many applications, including data fitting, machine learning and artificial intelligence, to-mography, navigation, image processing, finance, and automatic control systems.

The background required of the reader is familiarity with basic mathematical notation. We use calculus in just a few places, but it does not play a critical role and is not a strict prerequisite. Even though the book covers many topics that are traditionally taught as part of probability and statistics, such as fitting mathematical models to data, no knowledge of or background in probability and statistics is needed.

The book covers less mathematics than a typical text on applied linear algebra. We use only one theoretical concept from linear algebra, linear independence, and only one computational tool, the QR factorization; our approach to most applications relies on only one method, least squares (or some extension). In this sense we aim for intellectual economy: With just a few basic mathematical ideas, con-cepts, and methods, we cover many applications. The mathematics we do present, however, is complete, in that we carefully justify every mathematical statement. In contrast to most introductory linear algebra texts, however, we describe many applications, including some that are typically considered advanced topics, like document classification, control, state estimation, and portfolio optimization.

The book does not require any knowledge of computer programming, and can be used as a conventional textbook, by reading the chapters and working the exercises that do not involve numerical computation. This approach however misses out on one of the most compelling reasons to learn the material: You can use the ideas and methods described in this book to do practical things like build a prediction model from data, enhance images, or optimize an investment portfolio. The growing power of computers, together with the development of high level computer languages and packages that support vector and matrix computation, have made it easy to use the methods described in this book for real applications. For this reason we hope that every student of this book will complement their study with computer programming exercises and projects, including some that involve real data. This book includes some generic exercises that require computation; additional ones, and the associated data files and language-specific resources, are available online.

If you read the whole book, work some of the exercises, and carry out computer exercises to implement or use the ideas and methods, you will learn a lot. While there will still be much for you to learn, you will have seen many of the basic ideas behind modern data science and other application areas. We hope you will be empowered to use the methods for your own applications.

The book is divided into three parts. Part I introduces the reader to vectors, and various vector operations and functions like addition, inner product, distance, and angle. We also describe how vectors are used in applications to represent word counts in a document, time series, attributes of a patient, sales of a product, an audio track, an image, or a portfolio of investments. Part II does the same for matrices, culminating with matrix inverses and methods for solving linear equa-tions. Part III, on least squares, is the payoff, at least in terms of the applications. We show how the simple and natural idea of approximately solving a set of over-determined equations, and a few extensions of this basic idea, can be used to solve many practical problems.

The whole book can be covered in a 15 week (semester) course; a 10 week (quarter) course can cover most of the material, by skipping a few applications and perhaps the last two chapters on nonlinear least squares. The book can also be used for self-study, complemented with material available online. By design, the pace of the book accelerates a bit, with many details and simple examples in parts I and II, and more advanced examples and applications in part III. A course for students with little or no background in linear algebra can focus on parts I and II, and cover just a few of the more advanced applications in part III. A more advanced course on applied linear algebra can quickly cover parts I and II as review, and then focus on the applications in part III, as well as additional topics.

We are grateful to many of our colleagues, teaching assistants, and students for helpful suggestions and discussions during the development of this book and the associated courses. We especially thank our colleagues Trevor Hastie, Rob Tibshirani, and Sanjay Lall, as well as Nick Boyd, for discussions about data fitting and classification, and Jenny Hong, Ahmed Bou-Rabee, Keegan Go, David Zeng, and Jaehyun Park, Stanford undergraduates who helped create and teach the course EE103. We thank David Tse, Alex Lemon, Neal Parikh, and Julie Lancashire for carefully reading drafts of this book and making many good suggestions.

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