Statistics for Decision Makers - 01.00 - Outline

Statistics…。

"There are three kinds of lies

lies, damned lies, and statistics."

• Is it just yet another statistic?
• Or is it just a lie?
• It is just a lie!

What statistics can offer to Decision Makers。

• Descriptive Statistics
  • Basic statistics - which of the statistics (e.g. median, average, percentiles etc...) are more relevant to different distributions
  • Graphs - significance of getting it right (e.g. how the way the graph is created reflects the decision)
  • Variable types - what variables are easier to deal with
  • Ceteris paribus, things are always in motion
  • Third variable problem - how to find the real influencer
• Inferential Statistics
  • Probability value - what is the meaning of the P-value
  • Repeated experiment - how to interpret repeated experiment results
  • Data collection - you can minimize bias, but not get rid of it
  • Understanding confidence levels

Statistical Thinking。

• Decision making with limited information
  • How to check how much information is enough
  • Prioritizing goals based on probability and potential return (benefit/cost ratio, decision trees)
• How errors add up
  • The Butterfly Effect
• The Cassandra Problem - how to measure a forecast if the course of action has changed
  • How decisions make forecasting outdated
• Forecasting - methods and practicality
  • ARIMA
  • Why naive forecasts are usually more responsive
  • How far a forecast should look into the past
  • Why more data can mean worse forecasts

Statistical Methods that are useful for Decision Makers。

* Describing Bivariate Data

• • Univariate data and bivariate data
• Probability
  • Why things differ each time we measure them
• Normal Distributions and normally distributed errors
• Estimation
  • Independent sources of information and degrees of freedom
• The logic of Hypothesis Testing
  • What can be proven, and why it is always the opposite of what we want (Falsification)
  • Interpreting the results of Hypothesis Testing
  • Testing Means
• Power
  • How to determine a good (and cheap) sample size
  • False positives and false negatives and why it is always a trade-off

Statistics。

Descriptive (without extrapolating)

• Used for:
  • Comparing populations
  • Tracking trends (e.g. profit)

Inferential (uses probability to extrapolate)

• Using samples to infer what a population looks like
• Using past data to infer the future (forecasting)

Probability。

• Frequentist approach
• Probabilities can be combined (addition, multiplication)
• Usually probabilities are conditional (probability of A assuming B)

Statistical Errors。

• Error of Measurement
  • What is the margin of error of the device we use to measure?
• Bias of Sampling Method
  • Is the sample really representative?
• False Detection (false positive, Type I)
  • What is the probability of finding a difference where in reality there is no difference?
• Missed Detection (false negative, Type II)
  • What is the probability of not finding the difference where there is one?
• Forecast Error
  • How much the forecast differs from the real thing

Control Charts。

• Early warning system that something has changed
• Is the average page response time slowing down or were the last samples just unusually slow?
• Is the response rate from customers exceptionally low?
• Should we stop and investigate the increased response time or ignore it?

Auto-regression。

• Are changes in the past related to changes in the future?
• Are sales in March always lower on average than in other months of the year?