Chapter 5 DEMAND FORECASTING Prepared by Mark A. Jacobs, PhD

Chapter 5 DEMAND FORECASTING Prepared by Mark A. Jacobs, PhD
©2012 Cengage Learning. All Rights Reserved. May not be scanned, copied or duplicated, or posted to a publicly accessible website, in whole or in part.

Learning Objectives You should be able to:
Explain the role of demand forecasting in a supply chain Identify the components of a forecast Compare & contrast qualitative & quantitative forecasting techniques Assess the accuracy of forecasts Explain collaborative planning, forecasting, & replenishment ©2012 Cengage Learning. All Rights Reserved. May not be scanned, copied or duplicated, or posted to a publicly accessible website, in whole or in part.

Chapter Outline Introduction Demand Forecasting Forecasting Techniques
Qualitative Methods Quantitative Methods Components of Time Series Data Time Series Forecasting Methods Forecast Accuracy Useful Forecasting Websites Collaborative Planning, Forecasting, & Replenishment (CPFR) Software Solutions ©2012 Cengage Learning. All Rights Reserved. May not be scanned, copied or duplicated, or posted to a publicly accessible website, in whole or in part.

Introduction Supply chain members find it important to manage demand, especially in pull manufacturing environments. Suppliers must find ways to better match supply & demand to achieve optimal levels of cost, quality, & customer service to enable them to compete with other supply chains. Improved forecasts benefit all trading partners in the supply chain & mitigates supply-demand mismatch problems.

Demand Forecasting A forecast is an estimate of future demand & provides the basis for planning decisions The goal is to minimize forecast error The factors that influence demand must be considered when forecasting. Managing demand requires timely & accurate forecasts Good forecasting provides reduced inventories, costs, & stockouts, & improved production plans & customer service

Forecasting Techniques
Qualitative forecasting is based on opinion & intuition. Quantitative forecasting uses mathematical models & historical data to make forecasts. Time series models are the most frequently used among all the forecasting models.

Forecasting Techniques (Continued)
Qualitative Forecasting Methods Generally used when data are limited, unavailable, or not currently relevant. Forecast depends on skill & experience of forecaster(s) & available information Four qualitative models used are – Jury of executive opinion Delphi method Sales force composite Consumer survey

Quantitative Methods Time series forecasting – based on the assumption that the future is an extension of the past. Historical data is used to predict future demand Cause & Effect forecasting – assumes that one or more factors (independent variables) predict future demand It is generally recommended to use a combination of quantitative & qualitative techniques

Components of Time Series Data should be plotted to detect for the following components – Trend variations: increasing or decreasing Cyclical variations: wavelike movements that are longer than a year (e.g., business cycle) Seasonal variations: show peaks & valleys that repeat over a consistent interval such as hours, days, weeks, months, seasons, or years Random variations: due to unexpected or unpredictable events

Time Series Forecasting Models Naïve Forecast – the estimate of the next period is equal to the demand in the past period. Ft+1 = At Where Ft+1 = forecast for period t+1 At = actual demand for period t

Time Series Forecasting Models Simple Moving Average Forecast – uses historical data to generate a forecast. Works well when demand is stable over time. Where Ft+1 = forecast for period t+1 At = actual demand for period t n = number of periods to calculate moving average

Simple Moving Average (Fig. 5.1)

Time Series Forecasting Models Weighted Moving Average Forecast – is based on an n-period weighted moving average Where Ft+1 = forecast for period t+1 Ai = actual demand for period i n = number of periods to calculate moving average wi = weight assigned to period i (Σwi = 1)

Weighted Moving Average (Fig. 5.2)

Time Series Forecasting Models Exponential Smoothing Forecast – a type of weighted moving average where only two data points are needed Ft+1 = Ft+(At - Ft) or Ft+1 = At + (1 – ) Ft Where Ft+1 = forecast for Period t + 1 Ft = forecast for Period t At = actual demand for Period t  = smoothing constant (0 ≤  ≤1)

Exponential Smoothing (Fig. 5.3)

Forecast Accuracy The formula for forecast error, defined as the difference between actual quantity & the forecast – Forecast error, et = At - Ft Where et = forecast error for Period t At = actual demand for Period t Ft = forecast for Period t

Forecast Accuracy (Continued)
Several measures of forecasting accuracy follow – Mean absolute deviation (MAD)- a MAD of 0 indicates the forecast exactly predicted demand Mean absolute percentage error (MAPE)- provides a perspective of the true magnitude of the forecast error Mean squared error (MSE)- analogous to variance, large forecast errors are heavily penalized

Mean absolute deviation (MAD)- MAD of 0 indicates the forecast exactly predicted demand. Where et = forecast error for period t At = actual demand for period t n = number of periods of evaluation

Mean absolute percentage error (MAPE) – provides a perspective of the true magnitude of the forecast error. Where et = forecast error for period t At = actual demand for period t n = number of periods of evaluation

Mean squared error (MSE) – analogous to variance, large forecast errors are heavily penalized Where et = forecast error for period t n = number of periods of evaluation

Running Sum of Forecast Errors (RSFE) – indicates bias in the forecasts or the tendency of a forecast to be consistently higher or lower than actual demand. Running Sum of Forecast Errors, RSFE = Where et = forecast error for period t

Tracking signal – determines if forecast is within acceptable control limits. If the tracking signal falls outside the pre-set control limits, there is a bias problem with the forecasting method and an evaluation of the way forecasts are generated is warranted. Tracking Signal =

Useful Forecasting Websites
Institute for Forecasting Education International Institute of Forecasters Forecasting Principles Stata (Data analysis & statistical software)

Collaborative Planning, Forecasting, & Replenishment (CPFR)
A business practice that combines the intelligence of multiple trading partners in the planning & fulfillment of customer demands. Links sales & marketing best practices, such as category management, to supply chain planning processes to increase availability while reducing inventory, transportation & logistics costs.

Collaborative Planning, Forecasting, & Replenishment (Continued)
Real value of CPFR comes from sharing of forecasts among firms rather than sophisticated algorithms from only one firm. Does away with the shifting of inventories among trading partners that suboptimizes the supply chain. CPFR provides the supply chain with a plethora of benefits but requires a fundamental change in the way that buyers & sellers work together.

VICS’s CPFR Model (Fig. 5.5)

CPFR Model Step 1: Collaboration Arrangement Step 2: Joint Business Plan Step 3: Sales Forecasting Step 4: Order Planning/Forecasting Step 5: Order Generation Step 6: Order Fulfillment Step 7: Exception Management Step 8: Performance Assessment

Software Solutions Forecasting Software
Business Forecast Systems John Galt Just Enough SAS JDA Software Group i2 Technologies Oracle

Chapter 5 DEMAND FORECASTING Prepared by Mark A. Jacobs, PhD

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Chapter 5 DEMAND FORECASTING Prepared by Mark A. Jacobs, PhD

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