Presentation is loading. Please wait.

Presentation is loading. Please wait.

Inventory Management Distribution Requirements Planning

Published byMadeline MacGregor Modified over 11 years ago

Similar presentations

Presentation on theme: "Inventory Management Distribution Requirements Planning"— Presentation transcript:

1 Inventory Management Distribution Requirements Planning
Lecture 11 ESD.260 Fall2003 Caplice

2 Assumptions: Basic MRP Model
Demand Constant vs Variable􀂄 Known vs Random􀂄 Continuous vs Discrete Lead time􀂄 Instantaneous 􀂄 Constantc or Variable (deterministic/stochastic) Dependence of items Independent􀂄 Correlated􀂄 Indentured Review Time Continuous vs Periodic Number of Echelons􀂄 One vs Many Capacity/Resources􀂄 UnlimitedvsLimited Discounts None􀂄 All Units OrIncremental Excess Demand􀂄 All orders are backordered Lost orders􀂄 Substitution Perishability􀂄 Uniform with time Planning Horizon􀂄 Single Period􀂄 Finite Period􀂄 Infinite Number of Items􀂄 One􀂄 Many MIT Center for Transportation & Logistics - ESD © Chris Caplice, MIT

3 A Multi-Echelon Inventory System
MIT Center for Transportation & Logistics - ESD © Chris Caplice, MIT

4 What if I Use Traditional Techniques?
In multi-echelon inventory systems with decentralized control, lot size / reorder point logic will: Create and amplify "lumpy" demand Lead to the mal-distribution of available stock, hoarding of stock, and unnecessary stock outs Force reliance on large safety stocks, expediting, and re-distribution. MIT Center for Transportation & Logistics - ESD © Chris Caplice, MIT

5 Impact of Multi-Echelons
CDC Demand Pattern RDC Ordering Patterns RDC Inventory Cycles Layers of Inventory Create Lumpy Demand MIT Center for Transportation & Logistics - ESD © Chris Caplice, MIT

6 What does a DRP do? Premises “DRP is simply the application
Inventory control in a distribution environment Many products, many stockage locations Multi-echelon distribution network Layers of inventory create "lumpy" demand Concepts Dependent demand versus independent demand Requirements calculation versus demand forecasting Schedule flow versus stockpile assets Information replaces inventory “DRP is simply the application of the MRP principles and techniques to distribution inventories” Andre Martin MIT Center for Transportation & Logistics - ESD © Chris Caplice, MIT

7 DRP Requirements Information Requirements: Distribution Network Design
Base Level Usage Forecasts Distribution Network Design Inventory Status Ordering Data DRP Process: Requirements Implosion Net from Gross Requirements Requirements Time Phasing Planned Order Release MIT Center for Transportation & Logistics - ESD © Chris Caplice, MIT

8 A Distribution Network Example
Plant Centra Warehouse Regional Warehouse 1 Regional Warehouse 2 Regional Warehouse 3 Retailer G Retailer H Retailer I Retailer D Retailer E Retailer A Retailer B Retailer C MIT Center for Transportation & Logistics - ESD © Chris Caplice, MIT

9 Regional Warehouse One
Example: The DRP Plan Regional Warehouse One Q=50 , SS=15 , LT=1 Period Usage Gross Rqmt Begin Inv Sched Rcpt Net Rqmt Plan Rcpt End Inv PORt MIT Center for Transportation & Logistics - ESD © Chris Caplice, MIT

10 Central Warehouse Facility
The DRP Plan Period Usage Gross Rqmt Begin Inv Sched Recpt Net Rqmt Planned Recpt End Inv Planned Order Period Usage Gross Rqmt Begin Inv Sched Recpt Net Rqmt Planned Recpt End Inv Planned Order Period Usage Gross Rqmt Begin Inv Sched Recpt Net Rqmt Planned Recpt End Inv Planned Order Period Usage Gross Rqmt Begin Inv Sched Recpt Net Rqmt Planned Recpt End Inv MIT Center for Transportation & Logistics - ESD © Chris Caplice, MIT

11 Regional Warehouse Two
Example: The DRP Plan Regional Warehouse Two Q=30 , SS=10 , LT=1 NOW Period Usage Gross Rqmt Begin Inv Sched Rcpt Net Rpmt Plan Rcpt End Inv POR MIT Center for Transportation & Logistics - ESD © Chris Caplice, MIT

12 Regional Warehouse Three
Example: The DRP Plan Regional Warehouse Three Q=20 , SS=10 , LT=1 NOW Period Usage Gross Rqmt Begin Inv Sched Rcpt Net Rpmt Plan Rcpt End Inv POR MIT Center for Transportation & Logistics - ESD © Chris Caplice, MIT

13 The DRP Plan for All Locations
Rolling Up Orders NOW 1 2 3 4 5 6 7 8 CENTRAL Period Usage 100 20 50 30 POR 200 REGION ONE 25 REGION TWO 10 REGION THREE 15 MIT Center for Transportation & Logistics - ESD © Chris Caplice, MIT

14 Example: The DRP Plan Central Warehouse Q=200 , SS=0 , LT=2
Period Usage Gross Rqmt Begin Inv Sched Rcpt Net Rpmt Plan Rcpt End Inv POR MIT Center for Transportation & Logistics - ESD © Chris Caplice, MIT

15 Results and Insights DRP is a scheduling and stockage algorithm
-- it replaces the forecasting mechanism above the base inventory level DRP does not determine lot size or safety stock -- but these decisions must be made as inputs to the process DRP does not explicitly consider any costs -- but these costs are still relevant the user must evaluate trade-offs DRP systems can deal with uncertainty -- using "safety time" and "safety stock" MIT Center for Transportation & Logistics - ESD © Chris Caplice, MIT

16 MRP / DRP Integration Purchase Orders MRP MPS DRP Sales/Marketing Plan
Product CDC DRP RDC Retail Retail Retail Retail Sales/Marketing Plan MIT Center for Transportation & Logistics - ESD © Chris Caplice, MIT

17 Evolution of Inventory Management
Traditional Replenishment Inventory: Lot Size/ Order Point Logic Single item focus Emphasis on cost optimization Long run, steady state approach The MRP / DRP Approach: Scheduling emphasis Focus on quantities and times, not cost Multiple, inter-related items and locations Simple heuristic rules MIT Center for Transportation & Logistics - ESD © Chris Caplice, MIT

18 Evolution of Inventory Management
MRP / DRP have limited ability to deal with: Capacity restrictions in production and distribution “set-up” costs fixed and variable shipping costs alternative sources of supply network transshipment alternatives expediting opportunities Next Steps in MRP/DRP Establish a time-phased MRP/MPS/DRP network Apply optimization tools to the network Consider cost trade-offs across items, locations, and time periods Deal with shortcomings listed above MIT Center for Transportation & Logistics - ESD © Chris Caplice, MIT

19 A DRP Network Plan Plant RDC1 RDC2 LDC1 LDC2 LDC3 LDC4 R1 R2 R3 R4 R5
What happens when actual demand in the short term doesn’t follow the forecast exactly….. How should I re-deploy my inventory to take the maximum advantage of what I do have? Plant RDC1 RDC2 LDC1 LDC2 LDC3 LDC4 R1 R2 R3 R4 R5 R6 R7 R8 MIT Center for Transportation & Logistics - ESD © Chris Caplice, MIT

20 A DRP Network Reality Plant RDC1 RDC2 SHORTAGES EXCESS LDC1 LDC2 LDC3
Higher than expected demand Lower than expected demand MIT Center for Transportation & Logistics - ESD © Chris Caplice, MIT

21 Optimal Network Utilization
Plant RDC1 RDC2 SHORTAGES EXCESS LDC1 LDC2 LDC3 LDC4 R1 R2 R3 R4 R5 R6 R7 R8 MIT Center for Transportation & Logistics - ESD © Chris Caplice, MIT

22 Information and Control Impacts
Cenrtalized Control Decentralized Control Global Information Vendor Managed Inventory (VMI) DRP (some cases) ExtendedBaseStock ControlSystems DRP (most cases) Base Stock Control Local Information N/A Standard Inventory Policies: (R,Q), (s,S) etc. MIT Center for Transportation & Logistics - ESD © Chris Caplice, MIT

Download ppt "Inventory Management Distribution Requirements Planning"

Similar presentations

TWO STEP EQUATIONS 1. SOLVE FOR X 2. DO THE ADDITION STEP FIRST

TWO STEP EQUATIONS 1. SOLVE FOR X 2. DO THE ADDITION STEP FIRST
Inventory Control Models.

Inventory Control Models.
Overview of Working Capital Management

Overview of Working Capital Management
Inventory Systems for Dependent Demand

Inventory Systems for Dependent Demand
PowerPoint Presentation

PowerPoint Presentation
Facility Location Decisions

Facility Location Decisions
Inventory Management II Lot Sizing Lecture 5 ESD.260 Fall 2003 Caplice.

Inventory Management II Lot Sizing Lecture 5 ESD.260 Fall 2003 Caplice.
Inventory Management III EOQ Notes & Some Extensions Lecture 6 ESD.260 Fall 2003 Caplice.

Inventory Management III EOQ Notes & Some Extensions Lecture 6 ESD.260 Fall 2003 Caplice.
Inventory Management V Finite Planning Horizon Lecture 9 ESD.260 Fall 2003 Caplice.

Inventory Management V Finite Planning Horizon Lecture 9 ESD.260 Fall 2003 Caplice.
1 Introduction to Transportation Systems. 2 PART I: CONTEXT, CONCEPTS AND CHARACTERIZATI ON.

1 Introduction to Transportation Systems. 2 PART I: CONTEXT, CONCEPTS AND CHARACTERIZATI ON.
Jeopardy Q 1 Q 6 Q 11 Q 16 Q 21 Q 2 Q 7 Q 12 Q 17 Q 22 Q 3 Q 8 Q 13

Jeopardy Q 1 Q 6 Q 11 Q 16 Q 21 Q 2 Q 7 Q 12 Q 17 Q 22 Q 3 Q 8 Q 13
Jeopardy Q 1 Q 6 Q 11 Q 16 Q 21 Q 2 Q 7 Q 12 Q 17 Q 22 Q 3 Q 8 Q 13

Jeopardy Q 1 Q 6 Q 11 Q 16 Q 21 Q 2 Q 7 Q 12 Q 17 Q 22 Q 3 Q 8 Q 13
DIVIDING INTEGERS 1. IF THE SIGNS ARE THE SAME THE ANSWER IS POSITIVE 2. IF THE SIGNS ARE DIFFERENT THE ANSWER IS NEGATIVE.

DIVIDING INTEGERS 1. IF THE SIGNS ARE THE SAME THE ANSWER IS POSITIVE 2. IF THE SIGNS ARE DIFFERENT THE ANSWER IS NEGATIVE.
Addition Facts 1 - 20.

Addition Facts
What is Inventory? Definition--The stock of any item or resource used in an organization Raw materials Finished products Component parts Supplies Work.

What is Inventory? Definition--The stock of any item or resource used in an organization Raw materials Finished products Component parts Supplies Work.
Inventory BA 339 Mellie Pullman

Inventory BA 339 Mellie Pullman
Independent Demand Inventory Systems

Independent Demand Inventory Systems
Slides prepared by JOHN LOUCKS St. Edward’s University.

Slides prepared by JOHN LOUCKS St. Edward’s University.
The Value of Information

The Value of Information
ISEN 315 Spring 2011 Dr. Gary Gaukler. Hierarchy of Planning Forecast of aggregate demand over time horizon Aggregate Production Plan: determine aggregate.

ISEN 315 Spring 2011 Dr. Gary Gaukler. Hierarchy of Planning Forecast of aggregate demand over time horizon Aggregate Production Plan: determine aggregate.

Similar presentations

Ads by Google