## Description

# BSOP 330 Week 1 Lab Assignment Problems 4.1, 4.5, 4.9 and 4.11, pages 140-141

**Problems: 4.1, 4.5, 4.9 and 4.11, pages 140-141.**

**Problems: 4.1:** The following gives the number of pints of type A blood used at Woodlawn Hospital in the past 6 weeks:

a) Forecast the demand for the week of October 12 using a 3-week moving average.

b) Use a 3-week weighted moving average, with weights of .1, .3, and .6, using .6 for the most recent week. Forecast demand for the week of October 12.

c) Compute the forecast for the week of October 12 using exponential smoothing with a forecast for August 31 of 360 and Î± = .2.

**Problems: 4.5:** The Carbondale Hospital is considering the purchase of a new ambulance. The decision will rest partly on the anticipated mileage to be driven next year. The miles driven during the past 5 years are as follows:

Year Mileage

1 3,000

2 4,000

3 3,400

4 3,800

5 3,700

a) Forecast the mileage for next year using a 2-year moving average.

b) Find the MAD based on the 2-year moving average forecast in part (a).(Hint: You will have only 3 years of matched data.)

c) Use a weighted 2-year moving average with weights of .4 and .6 to forecast next yearâ€™s mileage. (The weight of .6 is for the most recent year.) What MAD results from using this approach to forecasting? (Hint: You will have only 3 years of matched data.)

d) Compute the forecast for year 6 using exponential smoothing, an initial forecast for year 1 of 3,000 miles, and Î± = .5

**Problems: 4.9: **Dell uses the CR5 chip in some of its laptop computers. The prices for the chip during the past 12 months were as follows:

a) Use a 2-month moving average on all the data and plot the averages and the prices

b) Use a 3-month moving average and add the 3-month plot to the graph created in part (a).

c) Which is better (using the mean absolute deviation): the 2-month average or the 3-month average?

d) d) Compute the forecasts for each month using exponential smoothing, with an initial forecast for January of $1.80. Use Î± = .1, then Î± = .3, and finally Î± = .5. Using MAD, which Î± is the best?

**Problems: 4.11**

Data collected on the yearly registrations for a Six Sigma seminar at the Quality College are shown in the following table:

a) Use exponential smoothing with a smoothing constant of 0.3 to forecast the registrations at the seminar given in Problem 4.10. To begin the procedure, assume that the forecast for year 1 was 5,000 people signing up.

b) What is the MAD?

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