___________________________________________________________________________ Operations Research  Jan Fábry PERT Project Management.

Slides:

Advertisements

Similar presentations

Operations Research Inventory Management.

Advertisements

Stochastic Inventory Modeling

Inventory Control Chapter 17 2.

Introduction to Management Science

___________________________________________________________________________ Operations Research  Jan Fábry Probabilistic Inventory Models.

Inventory Management. Inventory Objective:  Meet customer demand and be cost- effective.

12 Inventory Management.

To accompany Quantitative Analysis for Management, 8e by Render/Stair/Hanna 6-1 © 2003 by Prentice Hall, Inc. Upper Saddle River, NJ Chapter 6 Inventory.

McGraw-Hill/Irwin Copyright © 2007 by The McGraw-Hill Companies, Inc. All rights reserved. 12 Inventory Management.

Inventory Control IME 451, Lecture 3.

2000 by Prentice-Hall, Inc1 Inventory Management – Chapter 10  Stock of items held to meet future demand  Inventory management answers two questions.

12 Inventory Management.

Inventory Management Chapter 16.

Chapter 12 Inventory Management

Operations Management

COPYRIGHT © 2012 Nelson Education Ltd.

Inventory models Nur Aini Masruroh. Outline  Introduction  Deterministic model  Probabilistic model.

Supply Chain Management (SCM) Inventory management

___________________________________________________________________________ Quantitative Methods of Management  Jan Fábry Project Management.

___________________________________________________________________________ Quantitative Methods of Management  Jan Fábry Project Management Example -

Inventory Control Models

Lecture 5 Project Management Chapter 17.

Operations Management

© 2000 by Prentice-Hall Inc Russell/Taylor Oper Mgt 3/e Chapter 12 Inventory Management.

F O U R T H E D I T I O N Inventory Systems for Independent Demand © The McGraw-Hill Companies, Inc., 2003 chapter 16 DAVIS AQUILANO CHASE PowerPoint Presentation.

Inventory Management for Independent Demand

Chapter 12: Inventory Control Models

Management Accounting for Business

13 Inventory Management.

OPSM 301 Operations Management Class 15: Inventory Management EOQ Model Koç University Zeynep Aksin

___________________________________________________________________________ Operations Research  Jan Fábry Project Management.

Inventory. The amount of material, a company has in stock at a specific time is known as inventory or in terms of money it can be defined as the total.

Inventory Management.

McGraw-Hill/Irwin © The McGraw-Hill Companies, Inc., Table of Contents CD Chapter 18 (Inventory Management with Known Demand) A Case Study—The.

INVENTORY IS BAD. DIRECT FINANCIAL EFFECTS Pay money to get Place to Store Equipment to move DAMAGE - OBSOLESCENCE INCREASED CYCLE TIME Less flexibility.

Inventory Inventory is the stock of goods, commodities or other economic resources that are stored for the smooth and efficient running of a business.

Inventory Is stores of Goods and stocks, incldubg raw materials, work in process, finisjed process or supplies. Inventory Control Is an activity that maintains.

Inventory Stock of items held to meet future demand

___________________________________________________________________________ Quantitative Methods of Management  Jan Fábry Probabilistic Inventory Models.

Inventory Management. Learning Objectives  Define the term inventory and list the major reasons for holding inventories; and list the main requirements.

13Inventory Management. 13Inventory Management Types of Inventories Raw materials & purchased parts Partially completed goods called work in progress.

Inventory Management. Independent vs. dependent demand Independent demand: Independent demand: Influenced only by market conditions Influenced only by.

1 Chapter 6 –Inventory Management Policies Operations Management by R. Dan Reid & Nada R. Sanders 4th Edition © Wiley 2010.

20-0 Inventory Costs Carrying costs – range from 20 – 40% of inventory value per year Storage and tracking Insurance and taxes Losses due to obsolescence,

___________________________________________________________________________ Quantitative Methods of Management  Jan Fábry PERT Project Management.

1 Inventory Control. 2  Week 1Introduction to Production Planning and Inventory Control  Week 2Inventory Control – Deterministic Demand  Week 3Inventory.

Chapter 12 – Independent Demand Inventory Management Operations Management by R. Dan Reid & Nada R. Sanders 2 nd Edition © Wiley 2005 PowerPoint Presentation.

Operations Research II Course,, September Part 3: Inventory Models Operations Research II Dr. Aref Rashad.

To Accompany Russell and Taylor, Operations Management, 4th Edition,  2003 Prentice-Hall, Inc. All rights reserved. Chapter 12 Inventory Management.

Inventory Management for Independent Demand Chapter 12.

Inventory Management. Independent vs. dependent demand Independent demand: Independent demand: Influenced only by market conditions Influenced only by.

Inventory Management for Independent Demand Chapter 12, Part 1.

Inventory Control. Meaning Of Inventory Control Inventory control is a system devise and adopted for controlling investment in inventory. It involve inventory.

Week 14 September 7, 2005 Learning Objectives:

Chapter 4 Inventory Management. INVENTORY MANAGEMENT Stockpile of the product, a firm is offering for sale and the components that make up the product.

McGraw-Hill/Irwin Copyright © 2007 by The McGraw-Hill Companies, Inc. All rights reserved. 12 Inventory Management.

Inventory Control Models 6 To accompany Quantitative Analysis for Management, Twelfth Edition, by Render, Stair, Hanna and Hale Power Point slides created.

CHAPTER 8 Inventory Management © Pearson Education, Inc. publishing as Prentice Hall.

PENGENDALIAN PERSEDIAAN (Bagian 2)

Chapter 6 Inventory Control Models 6-1

Inventory Stock of items held to meet future demand

Inventory Management.

Chapter 13 Inventory Management McGraw-Hill/Irwin

Inventory Control.

Functions of Inventory

Chapter 4 Inventory Management.

Inventory Management.

EOQ Inventory Management

Chapter 10 Inventory Management

Inventory Stock of items held to meet future demand

Presentation transcript:

___________________________________________________________________________ Operations Research  Jan Fábry PERT Project Management

___________________________________________________________________________ Operations Research  Jan Fábry Project Management PERT  Probabilistic time – 3 estimates Optimistic Pessimistic Most likely Expected completion time

a ij m ij b ij OptimisticPessimistic Most Likely 0 Time ___________________________________________________________________________ Operations Research  Jan Fábry Project Management  Activity time β-distribution μ ij ExpectedPERT

___________________________________________________________________________ Operations Research  Jan Fábry Project Management  Expected completion time  Standard deviation PERT

___________________________________________________________________________ Operations Research  Jan Fábry Project Management 1)Using CPM ( t ij = μ ij ) Critical path 2)Expected duration of the project Variance of the project duration PERT

___________________________________________________________________________ Operations Research  Jan Fábry Project Management Duration of the project - normal distribution T M M + σ M - σ T – real duration M – expected duration – standard deviation σ – standard deviation PERT

___________________________________________________________________________ Operations Research  Jan Fábry Project Management 3)Probability analysis desired time T D probabilty of completion time within T D desired time T D p PERT

___________________________________________________________________________ Operations Research  Jan Fábry Project Management 3)Probability analysis desired probability p zpzp completion time PERT

___________________________________________________________________________ Operations Research  Jan Fábry Project Management Example - Music DM, Inc. Activity Description a ij m ij b ij μ ij Predecessors A Songs Selection None BMastering7898A C PM Elaborating 5676A D Customers Analysis 5797A E PM Production C, D F PM to PH 34115E G Customers Selection 2343D PERT

___________________________________________________________________________ Operations Research  Jan Fábry Project Management Example - Music DM, Inc. Activity Description a ij m ij b ij μ ij Predecessors H Make CD Copies B, D I Data to PH 2343G J Laser Print F, I KMailing68108 H, J PERT

___________________________________________________________________________ Operations Research  Jan Fábry Project Management Example - Music DM, Inc A B D C D1D1 E FH D2D2 GI J KPERT Critical path:

___________________________________________________________________________ Operations Research  Jan Fábry Project Management Example - Music DM, Inc. Activity Description a ij m ij b ij μ ij σ ij A Songs Selection /6 D Customers Analysis 57974/6 E PM Production /6 F PM to PH /6 J Laser Print /6 KMailing681084/6 PERT Critical activities

___________________________________________________________________________ Operations Research  Jan Fábry Project Management Example - Music DM, Inc. M = 48 Expected duration of the project  = 3 Std. deviation of the project duration  2 = 9 Variance of the project duration PERT

___________________________________________________________________________ Operations Research  Jan Fábry Project Management Time (days) Duration of the project Example - Music DM, Inc. PERT

___________________________________________________________________________ Operations Research  Jan Fábry Project Management Example - Music DM, Inc. Probability analysis Desired time T D = 45 PERT

___________________________________________________________________________ Operations Research  Jan Fábry Project Management Example - Music DM, Inc. Probability analysis Desired probability = 0.95 z p = PERT

___________________________________________________________________________ Operations Research  Jan Fábry Inventory Models

___________________________________________________________________________ Operations Research  Jan Fábry Inventory Models Inventory  Stored for use in future  Examples of inventories - raw material - finished goods - semi-finished products - spare parts

___________________________________________________________________________ Operations Research  Jan Fábry Inventory Models Reasons for Maintaining Inventories  Fluctuating demand  Delayed supply  Savings on ordering cost  Benefits on large quantities  Inflation

___________________________________________________________________________ Operations Research  Jan Fábry Inventory Models Management  How much to order?  When to order?  Objective – minimize total cost

___________________________________________________________________________ Operations Research  Jan Fábry Inventory Models Partial Inventory Cost  Ordering & setup cost – fixed charge cost frequency of ordering  Unit purchasing cost – variable cost quantity discounts

___________________________________________________________________________ Operations Research  Jan Fábry Inventory Models Partial Inventory Cost  Holding & carrying cost – variable cost - storage cost (space) - store keeping operations (movement) - insurance & taxes - interest (invested capital ) - oportunity cost - spoilage or obscolescence

___________________________________________________________________________ Operations Research  Jan Fábry Inventory Models Partial Inventory Cost  Shortage (stockout) cost – variable cost - idled production (idled machine) - placing special expensive expediting order - loss of customers due to late deliveries

___________________________________________________________________________ Operations Research  Jan Fábry Inventory Models Inventory Terminology  Inventory level  Demand & depletion Rate of demand  Depletion rate Available size of the inventory

___________________________________________________________________________ Operations Research  Jan Fábry Inventory Models Inventory Terminology  Reordering Reorder point = signal inventory level Time Placing order Lead time Receiving shipment & Replenishment

___________________________________________________________________________ Operations Research  Jan Fábry Inventory Models Inventory Terminology  Shortage Time Lead time Inventory level = 0 Optimal reorder date Placing order Receiving shipment Shortage !!

___________________________________________________________________________ Operations Research  Jan Fábry Inventory Models Inventory Terminology  Safety stock Buffer being built to prevent shortage In case of probabilistic demand

___________________________________________________________________________ Operations Research  Jan Fábry Inventory Models  Deterministic models Rate of demand is known with certainty Probabilistic demand (random variable)  Probabilistic models

StaticDynamicNonstationaryStationary ___________________________________________________________________________ Operations Research  Jan Fábry Inventory Models Demand Classification DeterministicProbabilistic Demand Rate of demand - known with certainty - constant Rate of demand - known with certainty - not constant Probability density function – unchanhged over time Probability density function – unchanhged over time Probability density function – varies in time Probability density function – varies in time Increasing Level of Mathematical Difficulty

___________________________________________________________________________ Operations Research  Jan Fábry Inventory Models Deterministic Models  Basic economic order quantity model (EOQ model)  EOQ model with back orders allowed (with planned shortages)  Economic production lot size model  EOQ model with quantity discounts

___________________________________________________________________________ Operations Research  Jan Fábry Inventory Models Probabilistic Models  Probabilistic model with continuous demand  Single-period decision model