Forecasting

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What is forecasting?

Name two forecasts you utilize: ______, ______

What do we forecast in operations management?

______,______, ______, ______

Why is forecasting important in operations management?

Accuracy of forecasts:

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1.  not an exact science.

2.  involves error

3.  assumes the past predicts the future

4.  can’t account for unplanned occurrences

5.  forecast is NOT EQUAL to actual demand

6.  accuracy decreases as the time period to forecast increases

Who has the advantage in forecasting and why?

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1.  Craft production? ______

2.  Mass production? ______

3.  Lean production? ______

How do you know if your forecast was accurate?

Week / Forecast (predicted) / Actual Demand
1 / 200,000 / 205,000
2 / 198,000 / 200,000
3 / 197,000 / 196,000
4 / 196,500 / 196,000
5 / 194,000 / 195,000
6 / 193,500 / 192,000
7 / 192,000 / 191,000
8 / 190,000 / 191,000

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1.  What is the trend (pattern) in the actual demand data over 8 weeks?

2.  How does actual demand compare to predicted or forecasted demand?

3.  Plot the demand data and determine the trend.

4.  Plot the forecast data on the same chart. How does the forecast compare to the actual demand data?

Approaches to Forecasting

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1.  Qualitative – using opinions, hunches, and subjective input to determine forecast. Where does the information come from?

2.  Quantitative – using numbers. Data driven forecasting. Example: forecasting weekly demand for electricity. What are the best predictors of electricity for week 1 of January?

Determining Trends (patterns) in Historical Data

Open the file from the web page titled “ Trends in Historical Data”

Homework
Open the file from the web page titled “Production Trends Homework”

Forecasting – Averaging Techniques

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1.  Smooths fluctuations in time series data

2.  Exhibits less variability than actual demand

3.  Reflects recent values of a times series

4.  Works best for slow, incremental changes

5.  Types of averaging forecasts: Na ve, Moving Averages, Weighted Averages, Exponential Smoothing

Naïve Forecasts – any period’s forecast, equals the previous period’s actual demand.

Actual Demand / Forecast
Week 1 / 49
Week 2 / 52
Week 3
Week 4

What is the forecast for Week 3? ______

If actual demand in Week 3 was 55, what is the Naïve forecast for Week 4? ______

Advantages of Naive Forecasting

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1.  Cheap

2.  Quick and Easy

3.  No data analysis

4.  Easy to understand

Is Naïve forecasting a good tool? ______

If you have seasonal demand, how would you use naïve forecasting?

Lawn Mower Demand

2000 Actual Demand / 2001 Naïve Forecast / 2001 Actual Demand
Jan. / 2 / 10
Feb / 4 / 15
March / 10 / 25
April / 30

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1.  Use Naive Forecasting to prepare the 2001 forecast for Lawn mowers.

2.  In 2001, suppose your actual demand was MUCH higher than your forecast. In other words, your company was experiencing actual growth in sales. You noticed this growth trend in March of 2001. How would you adjust your Na ve forecasts for this new growth trend?

Moving Averages - averages a number of recent actual demand values, updated as new values become available.

Demand for Peanut Butter

Week / Actual Demand / Forecast
1 / 50
2 / 52
3 / 54
4 / 49
5 / 51
6
7

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1.  Use a three-period moving average to generate a forecast for week 6. ______

2.  Use a five-period moving average to generate a forecast for week 6.______

3.  If actual demand for week 6= 53, what is the three-period moving average forecast for week 7? ______

4.  What is the five-period moving average forecast for week 7? ______

Advantages of Moving Averages

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1.  Moving averages lag actual demand.

2.  The number of data points in an average, determine the sensitivity to each new data point. Huh? Explain this. As the number of data points in an average increases (say we go from a 2-week moving average to a 7-week moving average), the sensitivity to a new data point increase or decrease? Explain.

3.  Easy to compute

4.  Easy to understand

Disadvantages

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1.  All values are weighted equally. The oldest value has the same weight as the newest value.

In-Class Assignment

Demand for Peanut butter.

Week / Actual Demand / 3-week Moving Average Forecast / 5-week Moving Average Forecast
1 / 50
2 / 52
3 / 54
4 / 49
5 / 51
6 / 53
7 / 54
8 / 47
9 / 51
10 / 53
11 / 49
12 / 48
13 / 51
14 / 52
15 / 65
16 / 67
17 / 69
18 / 50
19 / 51
20 / 49

1.  Calculate the three-week moving average forecasts for weeks 4-20. Why must you begin with week 4?

2.  Calculate the five-week moving average forecasts for weeks 6-20. Why must you begin with week 6?

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3.  Plot actual demand, the three week forecasts, and the five week forecasts. What does the picture tell you about the accuracy of your two forecasting techniques?

Weighted Moving Average – assign greater weights to the most recent values in a time series.

Weights for Peanut Butter Demand

Recent = .50

Next = .30

Next = .20

Calculate the weighted three-week moving average for weeks 15, 16,17, 18, 19 for the Peanut Butter Demand data.

Week 15 forecast= week 14 demand (.50) + week 13 demand (.30) + week 12 demand (.20)

Week 15 forecast =52 (.50) + 51 (.30) + 48 (.20)

Week 15 forecast = 50.9

Week 16 forecast =

Week 17 forecast =

Week 18 forecast =

Week 19 forecast =

Plot these weighted average forecasts on your graph with the 3-week and 5-week moving average forecasts.

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1.  Which forecast appears to be a better predictor of demand? Why?

2.  When demand increased in weeks 14, 15, and 16, which forecast appeared to be a better predictor? Why?

Exponential Smoothing – each new forecast is based on the previous forecast plus a percentage of the difference between the previous forecast and actual demand from the period.

Next forecast = Previous forecast + a (Actual demand from previous period – Previous forecast)

Where:

(Actual demand from previous period– Previous forecast) = Forecast Error

a = percentage of error

Where a=.10, use exponential smoothing to calculate forecasts for Weeks 5, 6, and 7 of Peanut Butter Demand, based on a three week moving forecast for week 4.

Week 5 forecast = week 4 forecast + .10 ( actual demand week 4 – week 4 forecast)

= 52 +.10 (49-52)

= 51.7

Week 6 forecast =

Week 7 forecast =

For practice, using a=.40, use exponential smoothing to forecast weeks 14, 15, and 16, using a week 13 forecast of 50.

Week 14 forecast =

Week 15 forecast =

Week 16 forecast =

a determines how quickly the forecast adjusts to changes in demand. The lower the value of a, the slower the forecast will adjust. The closer the value of a is to 1, the greater the responsiveness of the forecast.

Homework

Problems 3 & 4 at the end of the chapter.

Accuracy and Control of Forecasts

Will a forecast be accurate?

Why does the decision maker need a measure of accuracy?

Why should we monitor forecast error?

Forecast Error – difference between actual demand and the forecast.

Error= Actual demand – forecast

If Forecast Error is positive,

a.  the forecast was too low

b.  the forecast was too high

If forecast error is negative

c.  the forecast was too low

d.  the forecast was too high

Two techniques for measuring forecast accuracy:

Mean Absolute Deviation (MAD) and Mean Squared Error (MSE)

MAD = S ½ Actual demand – forecasted demand ½

n

MAD is the sum of the absolute value of error divided by n, the number of periods forecasted.

MSE = S (Actual demand – Forecasted demand)2 n-1

MSE is the sum of forecast error squared, divided by n-1, where n is the number of periods forecasted.

Both MAD and MSE summarize forecast error. When selecting a forecasting technique, do you want to pick a technique with a large or small value of MAD and/or MSE? Why?

MAD and MSE practice exercise

Examine the forecast accuracy of the 3- week moving average forecast and the 5-week moving average forecast for Peanut Butter Demand, weeks, 6-17. Which forecast is more accurate? Why?

Week / DEMAND / 3-wk Mov-ing avg. fore-cast / ERROR / Abso-lute value of error / ERROR2 / 5-wk Mov-ing avg. fore-cast / ERROR / Abso-lute value of error / ERROR2
1 / 50
2 / 52
3 / 54
4 / 49 / 52
5 / 51 / 51
6 / 53 / 51 / 51
7 / 54 / 51 / 51
8 / 47 / 52 / 52
9 / 51 / 51 / 50
10 / 53 / 50 / 51
11 / 49 / 50 / 51
12 / 48 / 51 / 50
13 / 51 / 50 / 49
14 / 52 / 49 / 51
15 / 65 / 50 / 50
16 / 67 / 56 / 53
17 / 69 / 61 / 56

MAD = S ½ Actual demand – forecasted demand ½

n

MSE = S (Actual demand – Forecasted demand)2

n-1

MAD for 3-wk:______

MSE for 3-wk:______

MAD for 5-wk:______

MSE for 5-wk:______

Homework:

Homework: page 126, problem 21, a,b,c,

page 127, problem 22, a

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