發表於2024-12-24
本書對所有主要的機器學習方法和新研究趨勢進行瞭深入探索,涵蓋概率和確定性方法以及貝葉斯推斷方法。其中,經典方法包括平均/小二乘濾波、卡爾曼濾波、隨機逼近和在綫學習、貝葉斯分類、決策樹、邏輯迴歸和提升方法等,新趨勢包括稀疏、凸分析與優化、在綫分布式算法、RKH空間學習、貝葉斯推斷、圖模型與隱馬爾可夫模型、粒子濾波、深度學習、字典學習和潛變量建模等。全書構建瞭一套明晰的機器學習知識體係,各章內容相對獨立,物理推理、數學建模和算法實現精準且細緻,並輔以應用實例和習題。本書適閤該領域的科研人員和工程師閱讀,也適閤學習模式識彆、統計/自適應信號處理和深度學習等課程的學生參考。
SergiosTheodoridis希臘雅典大學信息係教授。主要研究方嚮是自適應信號處理、通信與模式識彆。他是歐洲並行結構及語言協會(PARLE-95)的主席和歐洲信號處理協會(EUSIPCO-98)的常務主席、《信號處理》雜誌編委。
KonstantinosKoutroumbas1995年在希臘雅典大學獲得博士學位。自2001年起任職於希臘雅典國傢天文颱空間應用研究院,是國際知名的專傢。
Contents
Preface.iv
Acknowledgments.vv
Notation.vfivi
CHAPTER 1 Introduction .1
1.1 What Machine Learning is About1
1.1.1 Classification.2
1.1.2 Regression3
1.2 Structure and a Road Map of the Book5
References8
CHAPTER 2 Probability and Stochastic Processes 9
2.1 Introduction.10
2.2 Probability and Random Variables.10
2.2.1Probability11
2.2.2Discrete Random Variables12
2.2.3Continuous Random Variables14
2.2.4Meanand Variance15
2.2.5Transformation of Random Variables.17
2.3 Examples of Distributions18
2.3.1Discrete Variables18
2.3.2Continuous Variables20
2.4 Stochastic Processes29
2.4.1First and Second Order Statistics.30
2.4.2Stationarity and Ergodicity30
2.4.3PowerSpectral Density33
2.4.4Autoregressive Models38
2.5 InformationTheory.41
2.5.1Discrete Random Variables42
2.5.2Continuous Random Variables45
2.6 Stochastic Convergence48
Problems49
References51
CHAPTER 3 Learning in Parametric Modeling: Basic Concepts and Directions 53
3.1 Introduction.53
3.2 Parameter Estimation: The Deterministic Point of View.54
3.3 Linear Regression.57
3.4 Classification60
3.5 Biased Versus Unbiased Estimation.64
3.5.1 Biased or Unbiased Estimation?65
3.6 The Cramér-Rao Lower Bound67
3.7 Suf?cient Statistic.70
3.8 Regularization.72
3.9 The Bias-Variance Dilemma.77
3.9.1 Mean-Square Error Estimation77
3.9.2 Bias-Variance Tradeoff78
3.10 MaximumLikelihoodMethod.82
3.10.1 Linear Regression: The Nonwhite Gaussian Noise Case84
3.11 Bayesian Inference84
3.11.1 The Maximum a Posteriori Probability Estimation Method.88
3.12 Curse of Dimensionality89
3.13 Validation.91
3.14 Expected and Empirical Loss Functions.93
3.15 Nonparametric Modeling and Estimation.95
Problems.97
References102
CHAPTER4 Mean-quare Error Linear Estimation105
4.1Introduction.105
4.2Mean-Square Error Linear Estimation: The Normal Equations106
4.2.1The Cost Function Surface107
4.3A Geometric Viewpoint: Orthogonality Condition109
4.4Extensionto Complex-Valued Variables111
4.4.1Widely Linear Complex-Valued Estimation113
4.4.2Optimizing with Respect to Complex-Valued Variables: Wirtinger Calculus116
4.5Linear Filtering.118
4.6MSE Linear Filtering: A Frequency Domain Point of View120
4.7Some Typical Applications.124
4.7.1Interference Cancellation124
4.7.2System Identification125
4.7.3Deconvolution: Channel Equalization126
4.8Algorithmic Aspects: The Levinson and the Lattice-Ladder Algorithms132
4.8.1The Lattice-Ladder Scheme.137
4.9Mean-Square Error Estimation of Linear Models.140
4.9.1The Gauss-Markov Theorem143
4.9.2Constrained Linear Estimation:The Beamforming Case145
4.10Time-Varying Statistics: Kalman Filtering148
Problems.154
References158
CHAPTER 5 Stochastic Gradient Descent: The LMS Algorithm and its Family .161
5.1 Introduction.162
5.2 The Steepest Descent Method163
5.3 Application to the Mean-Square Error Cost Function167
5.3.1 The Complex-Valued Case175
5.4 Stochastic Approximation177
5.5 The Least-Mean-Squares Adaptive Algorithm179
5.5.1 Convergence and Steady-State Performanceof the LMS in Stationary Environments.181
5.5.2 Cumulative Loss Bounds186
5.6 The Affine Projection Algorithm.188
5.6.1 The Normalized LMS.193
5.7 The Complex-Valued Case.194
5.8 Relatives of the LMS.196
5.9 Simulation Examples.199
5.10 Adaptive Decision Feedback Equalization202
5.11 The Linearly Constrained LMS204
5.12 Tracking Performance of the LMS in Nonstationary Environments.206
5.13 Distributed Learning:The Distributed LMS208
5.13.1Cooperation Strategies.209
5.13.2The Diffusion LMS211
5.13.3 Convergence and Steady-State Performance: Some Highlights218
5.13.4 Consensus-Based Distributed Schemes.220
5.14 A Case Study:Target Localization222
5.15 Some Concluding Remarks: Consensus Matrix.223
Problems.224
References227
CHAPTER 6 The Least-Squares Family 233
6.1 Introduction.234
6.2 Least-Squares Linear Regression: A Geometric Perspective.234
6.3 Statistical Properties of the LS Estimator236
6.4
PrefaceMachine Learning is a name that is gaining popularity as an umbrella for methods that have been studied and developed for many decades in different scientific communities and underdiffer entnames,such as Statistical Learning,Statistical Signal Processing, Pattern Recognition,Adaptive Signal Processing,Image Processing and Analysis,System Identification and Control,Data Mining and Information Retrieval,Computer Vision,and Computational Learning.The name“Machine Learning”indicates what all these disciplines have in common,that is,to learn from data,and thenmake predictions.What one tries to learn from data is their underlying structure an dregularities, via the development of a model,which can then be used to provide predictions.To this end,anumber of diverse approaches have been developed,ranging from optimization of cost functions,whose goal is to optimize the deviation between what one observes from data and what them odelpredicts,to probabilistic models that attempt to model the statistical properties of the observed data.The goal of this book is to approach the machine learning discipline in a unifying context, by presenting the major paths and approaches that have been followed over the years, without giving preference to a specific one. It is the author’s belief that all of them are valuable to the newcomer who wants to learn the secrets of this topic, from the applications as well as from the pedagogic point of view.As the title of the book indicates,the emphasis is on the processing and analysis front of machine learning and not on topics concerning the theory of learning itself and related performance bounds.In other words,the focusis on methods and algorithms closer to the application level.The book is the outgrowth of more than three decades of the author’s experience on research and teaching various related courses.The book is written in such a way that individual(orpairsof)chapters are as self-contained as possible. So,one can select and combine chapters according to the focus he/she wants to give to the course he/she teaches,or to the topics he/she wants to grasp in a first reading.Some guidelines on how one can use the book for different courses are provided in the introductory chapter.Each chapter grows by starting from the basics and evolving to embrace the more recent advances. Some of the topics had to be split into two chapters,such as sparsity-aware learning, Bayesian learning,probabilistic graphical models, and Monte Carlo methods.The book addresses the needs of advanced graduate, postgraduate,and research students as well as of practicing scientists and engineers whose interests lie beyond black-box solutions. Also,the book can serve the needs of short courses on specific topics,e.g.,sparse modeling, Bayesian learning, robabilistic graphical models,neural networks and deep learning.Most of the chapters include Matlab exercises,and the related code is available from the book’s website. The solutions manual as well as PowerPointlectures are also available from the book’s website.AcknowledgmentsWritingabookisaneffortontopofeverythingelsethatmustkeeprunninginparallel.Thus,writingisbasicallyanearlymorning,afterfive,andovertheweekendsandholidaysactivity.Itisabigeffortthatrequiresdedicationandpersistence.Thiswouldnotbepossiblewithoutthesupportofanumberofpeople—peoplewhohelpedinthesimulations,inthemakingofthefigures,inreadingchapters,andindiscussingvariousissuesconcerningallaspects,fromproofstothestructureandthelayoutofthebook.First,Iwouldliketoexpressmygratitudetomymentor,friend,andcolleagueNicholasKalouptsidis,forthislong-lastingandfruitfulcollaboration.ThecooperationwithKostasSlavakisoverthelastsixyearshasbeenamajorsourceofinspirationandlearningandhasplayedadecisiveroleformeinwritingthisbook.Iamindebtedtothemembersofmygroup,andinparticulartoYannisKopsinis,PantelisBouboulis,SimosChouvardas,KostasThemelis,GeorgePapageorgiou,andCharisGeorgiou.Theywerebesidemethewholeti 機器學習:貝葉斯和優化方法(英文版) 下載 mobi epub pdf txt 電子書 格式
機器學習:貝葉斯和優化方法(英文版) 下載 mobi pdf epub txt 電子書 格式 2024
機器學習:貝葉斯和優化方法(英文版) 下載 mobi epub pdf 電子書正版好書,一直用京東圖書,用瞭2000京豆,疊加優惠券還是很便宜的
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評分讀書不同於電影、戲劇等其他文化生活。一本書無論他的質量如何,在你仔細讀過之後,其中的思想會或多或少的影響你的世界觀,從而對你未來接受新的知識形成一定的障礙。我認為這纔是你讀“壞書”(或者說不適閤你的書)真正的成本,而不是大眾所認為的你花在閱讀這本書上的時間和購買本書花的金錢。
評分活著,就像你明天將會死去;學習,就像你會永生!
機器學習:貝葉斯和優化方法(英文版) mobi epub pdf txt 電子書 格式下載 2024