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Supply And Logistics

Instructions:

Answer 50 questions in 15 minutes.
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Match each statement with the correct term.
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This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.

1. The minimum amount needed in the period
judgement-based forecasting
rolling planning horizons
net requriements
stockout

2. Forecasting model that computes a forecast ast he average of demands over a number of immediate past periods
moving average (time-series - statistical)
simulation models
Steps of designing a forecasting process
buffer (safety) stock

3. Small disturbance generated by a customer produces sucessively larger disturbances at each upstream stage in the supply chain
aggregate production plan
mixed or hybrid strategy
bullwhip effect
gross requirements

4. A planning system used to ensure the right quantities of materials are available when needed
Steps of designing a forecasting process
two-bin system
materials requirements planning (MRP)
time series and analysis methods

5. Process where each item in inventory is physically counted on a routine schedule
inventory turnover
advance planning and scheduling (APS) systems
weighted moving average (time-series - statistical)
cycle counting

6. Vendor is responsible for managing the inventory located at a customer's facility
Managerial approaches to reducing inventory costs
the roles of inventory
stockout
vendor-managed inventory (VIM)

7. Forecasting technique that bases forecastis on the purchasing patterns and attitutdes of current or potential customers
trend
periodic review model
yield management
marketing research (judgement-based)

8. The probability of meeting all demand for an item = cost of a unit stockout / (cost of a unit stockout + cost of being overstocked by one unit)
Moore's law
enterprise resource planning (ERP) system
target service level (TSL)
Wastes produced throughout the five product life cycle stages

9. 1) Improved forecast accuracy 2) Higher customer service with lower finished goods inventory levels due to better forecasts and coordination fo supply with demand 3) More stable supply rates -> Higher productivity for purchasing - suppliers and oper
Impact of lot size restrictions on quantity discounts
bill of materials (BOM)
Hard benefits of S&OP
requirements explosion

10. Regular demand patterns of repeating highs and lows
advance planning and scheduling (APS) systems
mixed or hybrid strategy
seasonality and cycles
focused forecasting

11. Administrative expenses and the expenses of rearranging a work center to produce an item
Steps of designing a forecasting process
part number
setup cost
load profile

12. Technique that seeks inputs from people who are in close contact with customers and products
the expense components of carrying cost
smoothing coefficient
executive judgment (judgement-based)
grassroots forecasting (judgement-based)

13. items that are ready for sale to customers
demand management tactics
finished goods inventory
forecast accuracy
independet demand

14. 1) Short-term forecasts are usually more accurate than long-term forecasts 2) Forecasts of aggregated demand are usually more accurate than forecasts of demand at detailed levels 3) Forecasts developed using multiple information sources are usually
Delphi method (judgement-based)
Three components of resource requirements planning
rules of forecasting
order interval

15. Simple forecasting approach that assumes that recent history is a good predictor of the near future
naive model (time-series - statistical)
ABC analysis
executive judgment (judgement-based)
gross requirements

16. 1) item number 2) item description 3) Lead time to order and receive the item from a supplier or to produce it internally 4) Preferred order quantity (lot size) 5) Safety stock quantity 6) Other info (cost/process descriptions) 7) Quantity on hand 8)
rules of forecasting
items included in the inventory record
business model
raw materials and components parts

17. 1) Extraction 2) Production 3) Packaging and Transport 4) Usage 5) Disposal/Recycling
Global Trade Item Number (GTIN)
product cost
service level policy
Wastes produced throughout the five product life cycle stages

18. 1) Balancing supply and demand 2) Buffering uncertainty in supply/demand 3) Enabling economies of buying 4) Enabling geographic specialization
life cycle waste assessment matrix (LCWAM)
the roles of inventory
inefficiencies caused by unpredictably fluctuating customer demand
transit inventory

19. Supply chain partner firms share invormation and insights in order to generate better forecasts and plans
demand during lead time
collaborative planning - forecasting and replenishment (CPFR)
stockout
historical analogy (judgement-based)

20. 1) Rapid technological change 2) Increasing importance of sustainability 3) Growing roles of national and corporate cultures
bill of materials (BOM)
regression analysis
important trends influencing operations management and the emergence of business models
Moore's law

21. Forecasting models that compute forecasts using historical data arranged in the order of occurrence
assumptions underlying the EOQ formulation
time series and analysis methods
types of costs that must be identified and quantified in aggregate planning
regression analysis

22. Sophisticated mathematical programs that offer forecasters the ability to evaluate different business scenarios that might yield different demand outcomes
simulation models
materials requirements planning (MRP)
finished goods inventory
quantitative ABC analysis procedure

23. Management system built around checking and ordering inventory at some regular interval
work in process inventory
reorder point (ROP)
vendor-managed inventory (VIM)
periodic review model

24. The number of days of business operations that can be supported with the inventory on hand = Current inventory/Expected daily demand
Global Trade Item Number (GTIN)
days of supply
simulation models
moving average (time-series - statistical)

25. The firm produces at a constant rate over the year
important trends influencing operations management and the emergence of business models
historical analogy (judgement-based)
reorder point (ROP)
level production strategy (aggregate production strategy)

26. Unit selling price - unit cost
periodic order quantity (POQ)
Pareto's law
cost of a unit stockout
historical analogy (judgement-based)

27. Approach used to evaluate the costs generated by wastes produced throughout a product's life cycle
life cycle analysis
demand management
gross requirements
forecast bias / mean forecast error

28. Extra inventory held to guard against uncertainty in demand or supply
total acquisition cost (TAC)
buffer (safety) stock
moving average (time-series - statistical)
mean absolute deviation / mean absolute error

29. A one-time change in demand - susually due to some external influence on demand
bill of materials (BOM)
reorder point (ROP)
demand planning
shift or step change

30. Supply of items held by a firm to meet demand
inventory
Advantages of high inventory turnover
load profile
two-bin system

31. 1) Enhanced teamwork at executive & operating levels 2) Better decisions with less effort and time 3) Better alignment of operational - marketing and financial plans 4) Greater accountability for results 5) Ability to see potential problems sooner
focused forecasting
Soft benefits of S&OP
enterprise resource planning (ERP) system
stockout

32. 1) Identify the price breaks on offer 2) Calculate the EOQ at each price break - starting with the lowest 3) Evaluate the feasibility of each EOQ value 4) Calculate the TAC for each feasible EOQ and for the minimum quantity required to attain each p
steps to determine order quantity when quantity discounts are available
saw-tooth diagram
gross requirements
forecast error

33. Built upon estimates and opinions of people - e.g. experts. Attempt to incorporate factors of demand that are difficult to capture in a purely statistical model.
judgement-based forecasting
demand management tactics
naive model (time-series - statistical)
reorder point (ROP)

34. 1) Extra resources expand and contract capacity to meet varying demand 2) Backlogging of certain orders to smooth out demand fluctuations 3) Customer dissatisfaction with inability to meet all demands 4) Buffering the system with safety stocks - saf
collaborative activities in CPFR
judgement-based forecasting
inefficiencies caused by unpredictably fluctuating customer demand
bullwhip effect

35. Times series models use only past demand values as indicators of future demand. Causal models use other independent - observed data to predict demand.
work in process inventory
continuous review model
causal models vs. simulation models
dependent demand inventory systems

36. 1) Market planning: intro of new products - store openings/closings - promotions - inventory policies - etc. 2) Demand and resource planning: customer demand & shipping requirements are forecasted 3) Execution: orders are placed - delivered - r
Hard benefits of S&OP
collaborative activities in CPFR
shift or step change
cumulative lead time

37. The assumption that there is an infinite amount of capacity available
economic order quantity (EOQ)
product cost
time series and analysis methods
infinite loading

38. Specifies the production rates - inventory - employment levels - backlogs - possible subcontracting - and other resources needed to meet the sales plan
aggregate production plan
Outputs of materials requirements planning (MRP)
Wastes produced throughout the five product life cycle stages
impact of raw material and compontent part stockouts

39. Expenses incurred due to the fact that inventory is held
net requriements
carrying (holding cost)
Steps of designing a forecasting process
Pareto's law

40. Demand that is created by customers
independet demand
quantitative ABC analysis procedure
two-bin system
planned order receipt

41. A method of estimating the impact of changing the number of lcoations on the quantity of inventory held
service level policy
shift or step change
postponable product
square root rule

42. 1) Opportunity cost - including cost of capital 2) Owning/maintaining storage space 3) Taxes 4) Insurance 5) Obsolescence and loss 6) Materials handling - tracking - management
fixed order quantity (FOQ)
cumulative lead time
the expense components of carrying cost
aggregate production plan

43. The most economic quantity to order when units become available at the rate at which they are produced (i.e. with partial order deliveries)
life cycle analysis
production order quantity
work in process inventory
Hard benefits of S&OP

44. Minimum level of inventory that triggers the need to order more
Moore's law
transit inventory
reorder point (ROP)
Impact of lot size restrictions on quantity discounts

45. The tendency of a forecasting technique to continually overpredict or underpredict demand.
Outputs of materials requirements planning (MRP)
life cycle waste assessment matrix (LCWAM)
forecast bias / mean forecast error
time series and analysis methods

46. An order for the same amount each time
two-bin system
basic questions to answer when planning inventories
fixed order quantity (FOQ)
mixed or hybrid strategy

47. Computing power will double every 18 months while computing cost will decrease by half

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48. Measure of how well the objective of meeting customer demand is met: usually in terms of # or % of inventory items for which there is no inventory on hand
stable pattern
service level
life cycle analysis
planned order receipt

49. 1) Identify users and decision-making processes that the forecast will support. Consider time horizon - level of detail - accuracy vs. cost - fit with existing business processes 2) Identify likely sources of good data 3) Select forecasting techni
Steps of designing a forecasting process
mean absolute deviation / mean absolute error
aggregate production plan
reorder point (ROP)

50. An order for the exact amount needed
economic order quantity (EOQ)
autocorrelation
business model
lot-for-lot (L4L)