Download presentation
Presentation is loading. Please wait.
1
___________________________________________________________________________ Operations Research Jan Fábry Probabilistic Inventory Models
2
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Probabilistic Inventory Models How much to order? When to order? How much to store in safety stock?
3
___________________________________________________________________________ Operations Research Jan Fábry Model with Continuous Demand Probabilistic Inventory Models
4
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Probabilistic Model with Continuous Demand Assumptions Single item Probabilistic distribution of demand (stationary demand) Deterministic lead time (constant) Continuous (but not uniform) depletion of the inventory
5
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Probabilistic Model with Continuous Demand Assumptions Purchasing cost is independent of the OQ Unit holding cost is independent of the OQ No additional cost in case of shortage Replenishment - exactly on the point when the shipment arrives
6
Time Inventory Level 0 ___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Probabilistic Model with Continuous Demand d r d q Cycle ICycle II Placing Order Shortage
7
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Probabilistic Model with Continuous Demand Probability distribution of demand μQμQ Demand μ Q + σ Q μ Q – σ Q Mean of demand μ Q Standard deviation σ Q
8
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Example – Brewery Probabilistic Model with Continuous Demand Estimation of annual demand = 120 000 cases Standard deviation of annual demand = 12 000 cases Annual holding cost per case = 20 CZK Ordering cost – transportation = 11 000 CZK per order – other = 1 000 CZK per order Lead time = ½ of month Objective: minimize total annual cost
9
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Example – Brewery Probabilistic Model with Continuous Demand Mean of annual demand Standard deviation of annual demand μ Q = 120 000 cases σ Q = 12 000 cases Annual holding cost Ordering cost Lead time c 1 = 20 CZK per case c 2 = 12 000 CZK per order d = 1/2 of month = 1/24 of year
10
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Example – Brewery Optimum order quantity Probabilistic Model with Continuous Demand
11
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Example – Brewery Mean of demand within the LEAD TIME = = Optimum reorder point Probabilistic Model with Continuous Demand Standard deviation of demand within the LEAD TIME
12
5 000 Lead-Time Demand 5 500 6 000 4 500 4 000 ___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Probabilistic Model with Continuous Demand Example – Brewery Mean μ d = 5 000 Standard deviation σ d = 500
13
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Example – Brewery Deterministic model – planned shortages Probabilistic Model with Continuous Demand Probabilistic model – random occurance of shortages building of SAFETY STOCK
14
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Example – Brewery Service level - definition Probabilistic Model with Continuous Demand 1. Service Level is the PROBABILITY with which DEMAND will be MET within the inventory cycle. 2. Service Level is the PROBABILITY with which SHORTAGE WILL NOT OCCUR within the inventory cycle. 3. Service Level is the PERCENTAGE of TIME that all DEMAND is MET.
15
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Example – Brewery Implemented reorder point (for the given service level p) Probabilistic Model with Continuous Demand Optimum reorder point Safety stock level
16
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Probabilistic Model with Continuous Demand d Time Inventory Level 0 d r *
17
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Probabilistic Model with Continuous Demand w 0 Time Inventory Level d r * d r p
18
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Example – Brewery Mean of total cost Probabilistic Model with Continuous Demand Holding cost of safety stock Objective: find such SAFETY STOCK level w that satisfies the given SERVICE LEVEL p and minimizes MEAN of TOTAL COST TC
19
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Example – Brewery Determination of optimum SAFETY STOCK level Probabilistic Model with Continuous Demand SERVICE LEVEL Real LEAD-TIME DEMAND Implemented REORDER POINT
20
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Example – Brewery Determination of optimum SAFETY STOCK level Probabilistic Model with Continuous Demand Real LEAD-TIME DEMAND Q d ~ N (r *, σ d ) ~ N (0, 1) Transformation
21
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Example – Brewery Determination of optimum SAFETY STOCK level Probabilistic Model with Continuous Demand
22
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Example – Brewery Determination of optimum SAFETY STOCK level Probabilistic Model with Continuous Demand
23
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Example – Brewery Optimum SAFETY STOCK level Probabilistic Model with Continuous Demand p = 0.95 p = 0.99
24
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Example – Brewery Optimum mean of total annual cost Probabilistic Model with Continuous Demand p = 0.95 p = 0.99
25
___________________________________________________________________________ Operations Research Jan Fábry Single-Period Decision Model Probabilistic Inventory Models
26
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Single-Period Decision Model Assumptions Only one order in time period Probabilistic distribution of demand (continuous or discrete) End of time period - surplus - surplus - stockout - stockout penalty !!!
27
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Single-Period Decision Model Seasonal or perishable items Newspapers – „Newsboy problem“ Seasonal clothing Christmas trees Halloween pumpkins Bread Flowers Fruits
28
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Example – Happyland Bakery department – optimize everyday order of rolls Purchase price = 1 CZK per roll Single-Period Decision Model Selling price = 2 CZK per roll Remaining rolls are changed into crumbs 20 rolls in 1 sack of crumbs Selling price of crumbs = 12 CZK per sack
29
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Example – Happyland Daily demand – normal probabilistic distribution = 10 000 rolls Single-Period Decision Model = 500 rolls Objective: determine optimum order quantity
30
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Example – Happyland Single-Period Decision Model Real daily demand for rolls – Q Daily quantity of ordered rolls - q Evening Q < q Q > q Q = q
31
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Example – Happyland Single-Period Decision Model Q < q Marginal loss per 1 roll ( q – Q ) rolls remain crumbs ML = purchase price – salvage value
32
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Example – Happyland Single-Period Decision Model Q > q Marginal profit loss per 1 roll shortage of ( Q – q ) rolls MPL = selling price – purchase price Q = q No loss
33
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Example – Happyland Single-Period Decision Model No stockout probability p Stockout probability (1 – p) Expected ML = p(ML) Expected MPL = (1-p)MPL
34
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Example – Happyland Single-Period Decision Model Optimum expected cost Probability with which no stockout occurs (optimum service level)
35
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models SERVICE LEVEL REAL DEMAND ORDER QUANTITY Determination of optimum order quantity Single-Period Decision Model Example – Happyland
36
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Determination of optimum order quantity Real demand Q ~ N ( , ) ~ N (0, 1) Transformation Single-Period Decision Model Example – Happyland
37
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Determination of optimum order quantity Single-Period Decision Model Example – Happyland
38
___________________________________________________________________________ Operations Research Jan Fábry Inventory Models Optimum order quantity Single-Period Decision Model Example – Happyland
Similar presentations
