Supply Chain Management Exam 3
Computation for Determining Period Logistics Requirements
+Forecasts (sales, marketing, input, histories, accounts) +Customer orders (current orders, future committed orders, contracts) +Promotions = Period Demand -Inventory-on-hand -Planned Receipts = Period Logistics Requirments
Exponential Smoothing
-An exponentially weighted moving average using smoothing constants to place greater weights on more recent demands -Useful when necessary to maintain data and generate forecasts for a large number of items that incorporate individual trend and seasonality components -Not as useful when there are other factors influencing demand such as promotions, price changes, or competitive actions not regularly scheduled
Advanced Planning and Schedule (APS) System Components
-Demand Management -Resource Management -Resource Optimization -Resource Allocation
Four Functions of Inventory
-Geographical specialization -Decoupling -Supply/Demand Balancing -Buffering Uncertainty
Supply Chain Planning Benefits
-Responsiveness to changes -Comprehensive perspective -Resource utilization
2 Key Indicators of Inventory Performance
-Service level -Average inventory
Time Series Forecasting Techniques
-Statistical methods utilized when historical sales data containing relatively clear and stable relationships and trends are available -Based on the assumption that the future will reflect the past -Most appropriate for short-range forecasting -Useful when trend patterns repeat with some cyclic, seasonal, or trend components -Not particularly responsive to change and discretion is required to select variables
Dimensions of Inventory Risk
-Time duration -Depth of commitment -Breadth of commitment
Moving Average
-Uses an average of the most recent period's sales to create a forecast -Useful when there are only base and irregular demand components -Not useful when there is significant seasonality or trend
Qualitative Forecasting Techniques
-Uses data such as expert opinion and special information, may or may not consider the past -Ideal for situations where little historical data and much managerial judgement are required -Developed by using surveys, panels, and consensus meetings
Multivariate
-Uses more complex statistical techniques to identify more complex demand history relationships; techniques include spectral analysis, fourier analysis, transfer functions, and neural networks -Useful when there's a complex, generally nonlinear relationship between historical patters and demand. More useful for predicting macro forecasts -Often nonsuited to detailed item-location-time period forecasts
Regression
-Uses other independent variables such as price, promotion plans, or related product volumes, to predict sales -Useful when there's a strong linear or nonlinear relationship between independent variables and demand -Not particularly responsive to change and discretion is required to select variables
Causal Forecasting
-Works well when a leading variable such as price can be identified -Types: simple regression, multiple regression
Steps in S&OP Process
1)A business plan in terms of financial forecast and a corresponding budget 2)Sales plan that is developed from the unconstrained marketing plan 3)Resource plan which is developed from the firm's internal and partner resource constraints 4)The business, unconstrained marketing, and resource plans are synthesized synchronized 5)Once this aggregate plan is approved, it becomes the basis of more detailed supply chain planning application systems
Criteria for Evaluating Forecasting Techniques
1)Accuracy 2)Forecast time horizon 3)Value of forecasting 4)Data availability 5)Type of data pattern 6)Experience of the forecaster
EOQ Model Assumptions
1)All demand is satisfied 2)Rate of demand is continuous, constant, and known 3)Replenishment performance cycle is constant and known 4)There is a constant price of product that is independent of order quantity or time 5)There is an infinite planning horizon 6)There is no interaction between multiple items of inventory 7)No inventory is in transit 8)No limit is placed on capital availability
Forecast Components
1)Base demand 2)Seasonality factor 3)Trend component index 4)Cyclical factor 5)Promotional factor 6)Irregular quantity
8 Keys to Successful S&OP
1)Executing the process every month 2)Process ownership and and clarity of roles and responsibilities 3)Organizational commitment to achieving high forecast accuracy 4)Focus on the next 3 to 12 months 5)One integrated plan that integrates the actions of the entire organization 6)Senior management decision making 7)Measuring end-to-end supply chain performance 8)No Adjustment of S&OP to operating plan or budget
3 Components of Forecast Process Development
1)Forecast technique 2)Forecast support system 3)Forecast administration
Supply Chain Planning Implementation Considerations
1)Integrated versus bolt-on application 2)Data integrity 3)Application education
4 Types of Time Series Forecasting
1)Moving average 2)Exponential smoothing 3)Extended smoothing 4)Adaptive Smoothing
3 Forecast Technique Categories
1)Qualitative 2)Time Series 3)Causal
3 Drivers of Effective Planning
1)Supply chain visibility 2)Simultaneous resource consideration 3)Resource utilization
Forecasting Goals
1)To improve collaborative planning 2)To drive requirements planning 3)To improve resource management
Typical Adjustments of EOQ
1)Volume Transportation Rates 2)Quantity Discounts 3)Production Lot Size 4)Multiple-Item Purchase 5)Limited Capital 6)Dedicated Trucking 7)Unitization
Inventory
A current asset that should provide return on capital invested
Service Level
A performance target that defines inventory performance objectives; often measured in terms of performance cycle time, case fill rate, line fill rate, order fill rate or any combination
Sales and Operations Planning (S&OP)
A process that includes information sharing and accountability to systematically develop a common and consistent plan that coordinates supply and demand plans across the organization
Supply/Demand Balancing
Accommodates elapsed time between inventory availability (manufacturing, growing, or extraction) and consumption
Buffering Uncertainty
Accommodates uncertainty related to demand in excess of forecast or unexpected delays in order receipt and order processing in delivery and is typically referred to as safety stock
Decoupling
Allows economies of scale within a single facility and permits each process to operate at maximum efficiency rather than having the speed of the entire process constrained by the slowest
Geographical Specialization
Allows geographical positioning across multiple manufacturing and distributive units of an enterprise. Inventory maintained at different locations and stages of the value-creation process allows specialization
Seasonality Factor
An annually recurring upward and downward movement in demand
Lot Sizing
Balances inventory carrying costs with the cost of ordering
Speculative Inventory
Bought prior to need to hedge a currency exchange, take advantage of a special discount, or prepare for a potential work disruption
Mean Absolute Percentage Error (MAPE)
Calculated by dividing mean absolute error by mean demand
Cyclical Factor
Characterized by periodic shifts in demand lasting more than a year
Promotional Factor
Characterizes demand swings initiated by a firm's marketing activities, such as advertising, deals, or promotions
Inventory Policy
Consists of guidelines regarding what to purchase or manufacture, when to take action, and in what quantity; drives inventory performance
Collaborative Planning, Forecasting, and Replenishment (CPFR)
Coordinates the requirements planning process between supply chain partners for demand creation and demand fulfillment activities by sharing information on promotions, forecasts, item data, and orders using either EDI or the internet
System Limitations Definitions
Define major supply chain activities constraints such as capacity limitations in production, storage, and movement
Resource Management Module of APS
Defines and coordinates supply chain system resources and constraints based on the requirements the requirements definition developed by the demand management module, product and customer definitions, resource definitions and costs, system limitations, and planning objective
Planning Objective Definitions
Defines the criteria for developing a solution such as minimizing total cost, meeting all customer requirements, or minimizing the number of instances when capacity is exceeded
Statement of Requirements
Defines what items are needed and when
Reorder Point
Defines when a replenishment shipment should be initiated--can be specified in terms of units days' supply
Available to Promise (ATP)
Designates that even though actual inventory is not currently available, it will be available for shipment or promise at a specific date in the future
Capable to Promise (CTP)
Designates when requested product can be promised for future delivery
Unconstrained Marketing Plan
Determines the maximum sales and profitability level that could be achieved if there were no supply chain operating constraints
Demand Management Module of APS
Develops the requirement projections for the planning horizon based on sales history, currently scheduled orders, scheduled marketing activities, and customer information
Forecast Calculation
Forecast quantity= (Base level x Seasonality factor x Trend component index x Cyclical factor x Promotional factor) + Irregular quantity
Simple Regression
If the SKU forecast is based upon a single factor
Multiple Regression
If the SKU forecast is based upon more than one factor
Supply Chain Visibility
Implies not only being able to track supply chain inventory and resources, but also that information regarding available resources can be effectively evaluated and managed
Irregular Quantity
Includes rand or unpredictable quantities that do not fit within the other categories
Forecast Administration
Includes the organizational, procedural, motivational, and personnel aspects of forecasting and its integration into the other firm functions
Forecast Support System
Includes the supply chain intelligence to gather and analyze data, develop the forecast, and communicate the forecast to relevant personnel and planning systems
Extended Exponential Smoothing
Incorporates the influence of trend and seasonality when specific values for these components can be identified
Logistics Planning
Integrates overall movement demand, vehicle availability, and relevant movement cost into a common decision support system that seeks to minimize overall freight expense
Safety Stock
Maintained in a logistical system to protect against demand and performance cycle uncertainty--- used only near the end of replenishment cycle when uncertainty has cause higher-than-expected demand or longer-than-expected performance cycle times
Production Planning Systems
Match the requirements plan with the production constraints to satisfy the necessary requirements at the minimum total production cost while not violating any constraints
Economic Order Quantity (EOQ)
Model that determines an exact order quantity policy by balancing the cost of ordering and the cost of maintaining average inventory
Product and Customer Definitions
Provide constants regarding the firm's products and customers such as: product descriptions and physical characteristics, standard costs, bill of material, ship-to location, distribution assignment, and special service requirements that define what is being manufactured, what is being distributed, where it is being delivered, and the performance cycles involved in distribution
Adaptive Smoothing
Provides a regular review of the alpha factor fit
Reorder Point Calculation
Reorder Point (Units)= Average daily demand in units x Average performance cycle length in days + Safety Stock in Units
Base Demand
Represents long-term average demand after the remaining components have been removed. The average over an extended time.
Transit Inventory
Represents the amount typically in transit between facilities or on order but not received
Demand Management
Seeks to provide increased accuracy, flexibility, and consistency in determining inventory requirements
Integrated Business Planning (IBP)
Similar to S&OP but also includes: -Greater financial integration -Increased inclusion of strategic initiatives and activities -Improved simulation and modeling of alternatives -Easier translation between aggregate and detailed levels of planning
Resource Allocation Module of APS
Specifies the resource assignments and communicates them to the ERP system to initiate appropriate transaction results including requirements for procurement, product, storage, and transport
Resource Definitions
Specify the physical resources used to accomplish supply chain activities such as manufacturing, storage, and movement capacities including the performance characteristics and costs associated with resource usage
Order Quantity
The amount order for replenishment
Resource Optimization Module of APS
The computational engine of the supply chain planning system that uses the requirements from the demand management module and the definitions, resources, limitations, and objectives from the resource management module to determine how to most effectively meet customer requirements while optimizing resource utilization
Performance Cycle
The elapsed time between the release of a purchase order by a buyer to the receipt of shipment
Inventory Carrying Cost
The expense associated with maintaining inventory; Relevant financial accounts include: capital, insurance, obsolescence, storage, and taxes
Trend Component Index
The long-range shift in periodic sales
Forecast Technique
The mathematical or statistical computation used to combine base, cyclical, and seasonal factors with elements of promotion history into a forecast quantity Examples: time series modeling, correlation modeling
Simultaneous Resource Consideration
The need to simultaneously consider supply chain demand, capacity, material requirements, and constraints to identify trade-offs where increased functional costs might lead to lower total system cost
Case Fill Rate
The percent of cases or units ordered that are shipped as requested
Order Fill
The percent of customer order filled completely
Line Fill Rate
The percent of order lines filled completely
Cycle Inventory (Base Stock)
The portion of average inventory that results from replenishment
Demand Management Forecasts
The projections of monthly, weekly, or daily demand that determine production and inventory requirements
Average Inventory
The rolling mean across time of materials, components, work-in-process, and finished products; = one-half order quantity plus safety stock and in transit stock
Obsolete Inventory
The stock that is out-of-date or that has not experienced recent demand---eventually donated, destroyed, or sold at a loss
Production Planning
Uses the statement of requirements obtained from demand management in conjunction with manufacturing resources and constraints to develop a workable manufacturing plan
Resource Utilization
With functional resource trade-offs in mind, the need for a coordinated approach that considers service requirements while minimizing combined supply chain resources
