MAYURBHANJ SCHOOL OF ENGINEERING (MSE)
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Er. SIDHARTHA KU. MOHANTA
LECTURER IN AUTOMOBILE ENGINEERING
SUBJECT: IE&M
TOPIC: INVENTORY CONTROL
SUMMER-2022, 6TH SEMESTER
Inventory Control
Instructor:
Suresh P.Sethi
Description:
Analysis of deterministic and stochastic inventory models;
Lot size models and their extensions;
Reorder point determination,quantity discounts;
The Wagner-Whitin algorithm;
Newsvendor (single period and two period models);
Period review and Multi-echelon models.
Textbook:
S. Axsäter, Inventory Control, Kluwer,2000
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Course Content
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Introduction-I
Inventory everywhere:
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Introduction-II
- operation without huge inventory
- innovation in inventory management enabled by technology
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Importance of Inventories-I
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Importance of Inventories-II
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Introduction to Inventory Control-I
control of the material flow from supplier to customers is a crucial problem
⇒ Importance of Inventory Management
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Introduction to Inventory Control-II
⇒ Inventory Models seek to find the best balance between these goals.
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Independent Demand Inventory Models-I
The average manufacturing company spends over one-half of its sales revenue on inventory. Because of the large investment and expenditure required for acquiring and controlling inventories and their effect on profits, successful companies devote a great deal of attention to inventory management.
- Marketing department wants large inventory, it does not
like stockouts.
- Finance department likes low inventory and high turnover
to minimize funds tied up in inventories; opportunity cost
of capital.
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Independent Demand Inventory Models-II
- Production department likes to keep production costs low. It likes uniform production and long uninterrupted runs of a small number of products.
Inventory models attempt to consider the cost of stockouts and
lost sales, the cost of funds tied up in inventories and the cost of
set-ups and to balance these cost as as to minimize the total
cost.
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Inventory Management-I
- raw materials
- component parts
- work-in-process
- finished products, etc.
1) To provide service
- finished good inventory to meet demand and keep
customers happy
- work-in-progress inventory to increase flexibility by
decoupling production stages and keep machines running
- raw material inventory keeps production moving
- protection against uncertainty
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Inventory Management-II
2) To save money
- buying in large quantities allows spreading of fixed costs
such as ordering costs and obtaining quantity discounts.
- stocking of seasonal items allow production smoothing or
work-load balancing.
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Inventory Management-III
1915 F.W.Harris (Westinghouse)
Lot size formula (EOQ model); independently
developed by Wilson and sold to many companies as
an integral part of an inventory control scheme.
1931 F.E. Raymond (MIT)
Wrote the first full length book.
WWII Christmas tree problem (Newsboy problem)
Whitin’s stochastic extension of the EOQ model.
Early Computer made it possible to handle large data
requirement
1950’s Of the inventory models, Whitin published a book on
stochastic inventory models in 1953.
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Inventory Management-IV
1958 Arrow, Karlin and Scarf published their now classical
book, which is a definitive work on inventory theory,
inspired a great deal of research for next decade.
Mid Material requirement planning (MRP)
1970’s Books by Orlicky, Wight in 1974
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Inventory Problem-I
1) When should an order be placed?
2) How much should be ordered?
in order to minimize the costs
- raw materials, intermediate products, finished goods
- capacity planning (e.g., hospital beds)
- cash management
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Inventory Problem-II
- Order point planning (OPP)
- Fixed-Quantity system (Trans, 5-1)
- Fixed-Interval system (Trans, 5-2)
- Minimum-Maximum System, (s,S)-system
- Material requirement planning (MRP)
- Kanban or just-in-time system
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A Fixed Order Quantity Inventory Reorder System
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A Fixed Interval Inventory Reorder System
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Typical Distribution of the ABC Inventory System
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General Framework for Inventory Models-I
- certainty
- risk, probability distribution of demand
- uncertainty, nothing known
- certainty
- risk, probability distribution of demand
- uncertainty
- purchased from outside; pure inventory problem
- integrated with production smoothing if inside
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General Framework for Inventory Models-II
- Static: one period problem, classic examples are
Christmas tree and newsboy problem
- Dynamic: decisions over time
- Stationary Demand: EOQ models
- Time-dependent Demand: WW model, Silver/Meal Heuristic
- Dependent Demand: MRP
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General Framework for Inventory Models-III
- Price or Variable Production Costs: quantity discounts
- Ordering or Setup Costs
- Holding or Inventory Carrying Costs
- Stockout/Shortage costs
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General Framework for Inventory Models-III
information
- forecasting module
- determination of order points and order quantities
- monitoring of inventory levels
- holding costs including opportunity costs
- ordering or setup costs
- shortage costs or service levels
- demand distribution
- lead times
Will not consider speculative costs.
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THANK YOU
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