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Data Smart - Jordan Goldmeier

Data Smart

Using Data Science to Transform Information into Insight
Buch | Softcover
448 Seiten
2023 | 2nd edition
John Wiley & Sons Inc (Verlag)
978-1-119-93138-6 (ISBN)
CHF 64,10 inkl. MwSt
Want to jump into data science but don't know where to start?

Let's be real, data science is presented as something mystical and unattainable without the most powerful software, hardware, and data expertise. Real data science isn't about technology. It's about how you approach the problem.

In this updated edition of Data Smart: Using Data Science to Transform Information into Insight, award-winning data scientist and bestselling author Jordan Goldmeier shows you how to implement data science problems using Excel while exposing how things work behind the scenes.

Data Smart is your field guide to building statistics, machine learning, and powerful artificial intelligence concepts right inside your spreadsheet.

Inside you'll find:



Four-color data visualizations that highlight and illustrate the concepts discussed in the book
Tutorials explaining complicated data science using just Microsoft Excel
How to take what you've learned and apply it to everyday problems at work and life
Advice for using formulas, Power Query, and some of Excel's latest features to solve tough data problems
Smart data science solutions for common business challenges
Explanations of what algorithms do, how they work, and what you can tweak to take your Excel skills to the next level

Data Smart is a must-read for students, analysts, and managers ready to become data science savvy and share their findings with the world.

JORDAN GOLDMEIER is an award-winning author in analytics, data science, and data visualization, and 11-time Microsoft MVP winner. Jordan has served analytics solutions for global organizations like NATO, The World Bank and Habitat for Humanity, and Fortune 500 companies likes Principal Financial and H&M. He has taught as an instructor for Wake Forest University, and served as a volunteer Emergency Medical Technician in New York City.

Introduction xix

1 Everything You Ever Needed to Know About Spreadsheets but Were Too Afraid to Ask 1

Some Sample Data 2

Accessing Quick Descriptive Statistics 3

Excel Tables 4

Filtering and Sorting 5

Table Formatting 7

Structured References 7

Adding Table Columns 10

Lookup Formulas 11

VLOOKUP 11

INDEX/MATCH 13

XLOOKUP 15

PivotTables 16

Using Array Formulas 19

Solving Stuff with Solver 20

2 Set It and Forget It: An Introduction to Power Query 27

What Is Power Query? 27

Sample Data 28

Starting Power Query 29

Filtering Rows 32

Removing Columns 33

Find & Replace 34

Close & Load to Table 35

3 Naïve Bayes and the Incredible Lightness of Being an Idiot 39

The World's Fastest Intro to Probability Theory 39

Totaling Conditional Probabilities 40

Joint Probability, the Chain Rule, and Independence 40

What Happens in a Dependent Situation? 41

Bayes Rule 42

Separating the Signal and the Noise 43

Using the Bayes Rule to Create an AI Model 44

High-Level Class Probabilities Are Often Assumed to Be Equal 45

A Couple More Odds and Ends 46

Let's Get This Excel Party Started 47

Cleaning the Data with Power Query 48

Splitting on Spaces: Giving Each Word Its Due 50

Counting Tokens and Calculating Probabilities 55

We Have a Model! Let's Use It 58

4 Cluster Analysis Part 1: Using K-Means to Segment Your Customer Base 65

Dances at Summer Camp 65

Getting Real: K-Means Clustering Subscribers in Email Marketing 70

The Initial Dataset 71

Determining What to Measure 72

Start with Four Clusters 75

Euclidean Distance: Measuring Distances as the Crow Flies 76

Solving for the Cluster Centers 80

Making Sense of the Results 82

Getting the Top Deals by Cluster 83

The Silhouette: A Good Way to Let Different K Values Duke It Out 86

How About Five Clusters? 95

Solving for Five Clusters 96

Getting the Top Deals for All Five Clusters 96

Computing the Silhouette for 5-Means Clustering 99

K-Medians Clustering and Asymmetric Distance Measurements 100

Using K-Medians Clustering 100

Getting a More Appropriate Distance Metric 100

Putting It All in Excel 102

The Top Deals for the 5-Medians Clusters 104

5 Cluster Analysis Part II: Network Graphs and Community Detection 109

What Is a Network Graph? 110

Visualizing a Simple Graph 110

Beyond GiGraph and Adjacency Lists 115

Building a Graph from the Wholesale Wine Data 117

Creating a Cosine Similarity Matrix 118

Producing an R-Neighborhood Graph 121

Introduction to Gephi 123

Creating a Static Adjacency Matrix 124

Bringing in Your R-Neighborhood Adjacency Matrix into Gephi 124

Node Degree 128

Touching the Graph Data 130

How Much Is an Edge Worth? Points and Penalties in Graph Modularity 132

What's a Point, and What's a Penalty? 133

Setting Up the Score Sheet 136

Let's Get Clustering! 138

Split Number 1 138

Split 2: Electric Boogaloo 143

And. . .Split3: Split with a Vengeance 145

Encoding and Analyzing the Communities 146

There and Back Again: A Gephi Tale 151

6 Regression: The Granddaddy of Supervised Artificial Intelligence 157

Predicting Pregnant Customers at RetailMart Using Linear Regression 158

The Feature Set 159

Assembling the Training Data 161

Creating Dummy Variables 163

Let's Bake Our Own Linear Regression 165

Linear Regression Statistics: R-Squared, F-Tests, t-Tests 173

Making Predictions on Some New Data and Measuring Performance 182

Predicting Pregnant Customers at RetailMart Using Logistic Regression 192

First You Need a Link Function 192

Hooking Up the Logistic Function and Reoptimizing 193

Baking an Actual Logistic Regression 196

7 Ensemble Models: A Whole Lot of Bad Pizza 203

Getting Started Using the Data from Chapter 6 203

Bagging: Randomize, Train, Repeat 204

Decision Stump is Another Name for a Weak Learner 204

Doesn't Seem So Weak to Me! 204

You Need More Power! 207

Let's Train It 208

Evaluating the Bagged Model 220

Boosting: If You Get It Wrong, Just Boost and Try Again 223

Training the Model—Every Feature Gets a Shot 224

Evaluating the Boosted Model 231

8 Forecasting: Breathe Easy: You Can't Win 235

The Sword Trade Is Hopping 236

Getting Acquainted with Time-Series Data 236

Starting Slow with Simple Exponential Smoothing 238

Setting Up the Simple Exponential Smoothing Forecast 240

You Might Have a Trend 249

Holt's Trend-Corrected Exponential Smoothing 250

Setting Up Holt's Trend-Corrected Smoothing in a Spreadsheet 252

So Are You Done? Looking at Autocorrelations 258

Multiplicative Holt-Winters Exponential Smoothing 266

Setting the Initial Values for Level, Trend, and Seasonality 268

Getting Rolling on the Forecast 274

And. . .Optimize! 280

Putting a Prediction Interval Around the Forecast 283

Creating a Fan Chart for Effect 287

Forecast Sheets in Excel 289

9 Optimization Modeling: Because That "Fresh-Squeezed" Orange Juice Ain't Gonna Blend Itself 293

Wait Is This Data Science? 294

Starting with a Simple Trade-Off 295

Representing the Problem as a Polytope 296

Solving by Sliding the Level Set 297

The Simplex Method: Rooting Around the Corners 298

Working in Excel 300

Fresh from the Grove to Your Glass with a Pit Stop Through a Blending Model 305

Let's Start with Some Specs 307

Coming Back to Consistency 308

Putting the Data into Excel 309

Setting Up the Problem in Solver 311

Lowering Your Standards 314

Dead Squirrel Removal: the Minimax Formulation 317

If-Then and the "Big M" Constraint 320

Multiplying Variables: Cranking Up the Volume to 11,000 324

Modeling Risk 330

Normally Distributed Data 331

10 Outlier Detection: Just Because They're Odd Doesn't Mean They're Unimportant 339

Outliers Are (Bad?) People, Too 340

The Fascinating Case of Hadlum v Hadlum 340

Tukey's Fences 341

Applying Tukey's Fences in a Spreadsheet 342

The Limitations of This Simple Approach 345

Terrible at Nothing, Bad at Everything 346

Preparing Data for Graphing 347

Creating a Graph 350

Getting the k-Nearest Neighbors 351

Graph Outlier Detection Method 1: Just Use the Indegree 352

Graph Outlier Detection Method 2: Getting Nuanced with k-Distance 355

Graph Outlier Detection Method 3: Local Outlier Factors Are Where It's At 358

11 Moving on From Spreadsheets 363

Getting Up and Running with R 364

A Crash Course in R-ing 366

Show Me the Numbers! Vector Math and Factoring 367

The Best Data Type of Them All: the Dataframe 370

How to Ask for Help in R 371

It Gets Even Better Beyond Base R 372

Doing Some Actual Data Science 374

Reading Data into R 374

Spherical K-Means on Wine Data in Just a Few Lines 375

Building AI Models on the Pregnancy Data 381

Forecasting in R 389

Looking at Outlier Detection 393

12 Conclusion 397

Where Am I? What Just Happened? 397

Before You Go-Go 397

Get to Know the Problem 398

We Need More Translators 398

Beware the Three-Headed Geek-Monster: Tools, Performance, and Mathematical Perfection 399

You Are Not the Most Important Function of Your Organization 401

Get Creative and Keep in Touch! 402

Index 403

Erscheinungsdatum
Verlagsort New York
Sprache englisch
Maße 188 x 234 mm
Gewicht 885 g
Themenwelt Informatik Datenbanken Data Warehouse / Data Mining
Mathematik / Informatik Informatik Netzwerke
ISBN-10 1-119-93138-X / 111993138X
ISBN-13 978-1-119-93138-6 / 9781119931386
Zustand Neuware
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