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Forecasting plays a crucial role in business planning inputs, incorporating market, economic, and demand estimates to inform sales forecasts and guide business strategy. Qualitative approaches rely on causal judgment factors and are valuable for new products, while quantitative methods analyze historical patterns for future demand projections. Utilizing time series analysis and linear regression techniques, businesses can make accurate sales forecasts, monitor forecast accuracy through metrics like Mean Squared Error, and implement results effectively to drive production and resource forecasts. Nada Sanders and Karl Mandrodt's study highlights the continued reliance on judgmental forecasting methods over quantitative ones in various industries.
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Forecasting is an Integral Part of Business Planning Inputs: Market, Economic, Other Demand Estimates Forecast Method(s) Sales Forecast Management Team Business Strategy Production Resource Forecasts
Forecasting Methods • Qualitative Approaches • Quantitative Approaches
Qualitative Approaches • Usually based on judgments about causal factors that underlie the demand of particular products or services • Do not require a demand history for the product or service, therefore are useful for new products/services • Approaches vary in sophistication from scientifically conducted surveys to intuitive hunches about future events
Qualitative Methods • Executive committee consensus • Delphi method • Survey of sales force • Survey of customers • Historical analogy • Market research
Quantitative Forecasting Approaches • Based on the assumption that the “forces” that generated the past demand will generate the future demand, i.e., history will tend to repeat itself • Analysis of the past demand pattern provides a good basis for forecasting future demand • Majority of quantitative approaches fall in the category of time series analysis
Quantitative Forecasting ApplicationsSmall and Large Firms Source: Nada Sanders and Karl Mandrodt (1994) “Practitioners Continue to Rely on Judgmental Forecasting Methods Instead of Quantitative Methods,” Interfaces, vol. 24, no. 2, pp. 92-100. Note: More than one response was permitted.
Time Series Analysis • A time series is a set of numbers where the order or sequence of the numbers is important, e.g., historical demand • Analysis of the time series identifies patterns • Once the patterns are identified, they can be used to develop a forecast
x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x x Components of Time Series What’s going on here? x Sales 1 2 3 4 Year
Components of Time Series • Trends are noted by an upward or downward sloping line • Seasonality is a data pattern that repeats itself over the period of one year or less • Cycle is a data pattern that repeats itself... may take years • Irregular variations are jumps in the level of the series due to extraordinary events • Random fluctuation from random variation or unexplained causes
Seasonality Length of TimeNumber of Before PatternLength ofSeasons Is RepeatedSeasonin Pattern Year Quarter 4 Year Month 12 Year Week 52 Month Week 4 Month Day 28-31 Week Day 7
Eight Steps to Forecasting • Determining the use of the forecast--what are the objectives? • Select the items to be forecast • Determine the time horizon of the forecast • Select the forecasting model(s) • Collect the data • Validate the forecasting model • Make the forecast • Implement the results
Quantitative Forecasting Approaches • Linear Regression • Simple Moving Average • Weighted Moving Average • Exponential Smoothing (exponentially weighted moving average) • Exponential Smoothing with Trend (double smoothing)
Simple Linear Regression • Relationship between one independent variable, X, and a dependent variable, Y. • Assumed to be linear (a straight line) • Form: Y = a + bX • Y = dependent variable • X = independent variable • a = y-axis intercept • b = slope of regression line
Simple Linear Regression Model • b is similar to the slope. However, since it is calculated with the variability of the data in mind, its formulation is not as straight-forward as our usual notion of slope Yt = a + bx Y 0 1 2 3 4 5 x (weeks)
Regression Equation Example Develop a regression equation to predict sales based on these five points.
Regression Equation Example Slide 18 of 55
Regression Equation Example y = 143.5 + 6.3t 180 175 170 165 Sales 160 155 Forecast Sales 150 145 140 135 Period 1 2 3 4 5 Slide 19 of 55
Forecast Accuracy • Accuracy is the typical criterion for judging the performance of a forecasting approach • Accuracy is how well the forecasted values match the actual values
Monitoring Accuracy • Accuracy of a forecasting approach needs to be monitored to assess the confidence you can have in its forecasts and changes in the market may require reevaluation of the approach • Accuracy can be measured in several ways • Mean absolute deviation (MAD) • Mean squared error (MSE)
Mean Squared Error (MSE) MSE = (Syx)2 Small value for Syx means data points tightly grouped around the line and error range is small. The smaller the standard error the more accurate the forecast. MSE = 1.25(MAD) When the forecast errors are normally distributed
Month Sales Forecast 1 220 n/a 2 250 255 3 210 205 4 300 320 5 325 315 Example--MAD Determine the MAD for the four forecast periods
Month Sales Forecast Abs Error 1 220 n/a 2 250 255 5 3 210 205 5 4 300 320 20 5 325 315 10 40 Solution
Simple Moving Average • An averaging period (AP) is given or selected • The forecast for the next period is the arithmetic average of the AP most recent actual demands • It is called a “simple” average because each period used to compute the average is equally weighted • . . . more
Simple Moving Average • It is called “moving” because as new demand data becomes available, the oldest data is not used • By increasing the AP, the forecast is less responsive to fluctuations in demand (low impulse response) • By decreasing the AP, the forecast is more responsive to fluctuations in demand (high impulse response)
Simple Moving Average • Let’s develop 3-week and 6-week moving average forecasts for demand. • Assume you only have 3 weeks and 6 weeks of actual demand data for the respective forecasts
Simple Moving Average Slide 29 of 55
Simple Moving Average Slide 30 of 55
Weighted Moving Average • This is a variation on the simple moving average where instead of the weights used to compute the average being equal, they are not equal • This allows more recent demand data to have a greater effect on the moving average, therefore the forecast • . . . more
Weighted Moving Average • The weights must add to 1.0 and generally decrease in value with the age of the data • The distribution of the weights determine impulse response of the forecast
Weighted Moving Average Determine the 3-period weighted moving average forecast for period 4 Weights (adding up to 1.0): t-1: .5 t-2: .3 t-3: .2
Exponential Smoothing • The weights used to compute the forecast (moving average) are exponentially distributed • The forecast is the sum of the old forecast and a portion of the forecast error Ft = Ft-1 + a(At-1-Ft-1) • . . . more
Exponential Smoothing • The smoothing constant, , must be between 0.0 and 1.0 (excluding 0.0 and 1.0) • A large provides a high impulse response forecast • A small provides a low impulse response forecast
Exponential Smoothing Example • Determine exponential smoothing forecasts for periods 2 through 10 using =.10 and =.60. • Let F1=D1
Exponential Smoothing Example Slide 38 of 55
Criteria for Selectinga Forecasting Method • Cost • Accuracy • Data available • Time span • Nature of products and services • Impulse response and noise dampening
Reasons for Ineffective Forecasting • Not involving a broad cross section of people • Not recognizing that forecasting is integral to business planning • Not recognizing that forecasts will always be wrong (think in terms of interval rather than point forecasts) • Not forecasting the right things (forecast independent demand only) • Not selecting an appropriate forecasting method (use MAD to evaluate goodness of fit) • Not tracking the accuracy of the forecasting models
How to Monitor andControl a Forecasting Model • Tracking Signal Tracking signal = =
Sources of Forecasting Data • Consumer Confidence Index • Consumer Price Index • Housing Starts • Index of Leading Economic Indicators • Personal Income and Consumption • Producer Price Index • Purchasing Manager’s Index • Retail Sales