© J. Christopher Beck 20051 Lecture 28: Supply Chain Scheduling 2.

Slides:

Advertisements

Similar presentations

Strategic Decisions (Part II)

Advertisements

Unit 2 Manufacturing Operations Sections: 1.Manufacturing Industries and Products 2.Manufacturing Operations 3.Production Facilities 4.Product/Production.

Lecture 6: Job Shop Scheduling Introduction

Copyright 2006 John Wiley & Sons, Inc. Beni Asllani University of Tennessee at Chattanooga Sales and Operational Planning Operations Management Chapter.

© The McGraw-Hill Companies, Inc., 1998 Irwin/McGraw-Hill Module 11 Operations Scheduling Chapter 16 (pp ) Work Center and definitions  Objectives.

© J. Christopher Beck Lecture 27: Supply Chain Scheduling 1.

OMG Operations Management Spring 1997

Managing Production across the Supply Chain

© J. Christopher Beck Lecture 14: Assembly Line Scheduling 2.

Chapter 4 Process design Shenval. Alamy.

The Production Process

Copyright © 2003 by South-Western/Thomson Learning. All rights reserved. 15–1 Operations Exhibit 15–1.

© J. Christopher Beck Lecture 24: Workforce Scheduling 2.

© J. Christopher Beck Lecture 29: Supply Chain Scheduling 3.

© J. Christopher Beck Lecture 31: Scheduling Systems 2.

Ch 3 Manufacturing Models and Metrics

22–1. 22–2 Chapter Twenty-Two Copyright © 2014 by The McGraw-Hill Companies, Inc. All rights reserved. McGraw-Hill/Irwin.

David O’Sullivan Industrial Automation (IE423 Computer Integrated Manufacturing) (IE215 Design and Make) David O’Sullivan

FLEXIBLE MANUFACTURING SYSTEMS. FLEXIBLE MANUFACTURING SYSTEMS MODELING AND ANALYSIS OF MANUFACTURING SYSTEMS.

OPSM 301 Operations Management Class 3: Process selection Koç University Zeynep Aksin

© 2004 by Prentice Hall, Inc. Upper Saddle River, N.J Operations Management Material Requirements Planning (MRP) & ERP Chapter 14.

MultiMedia by Stephen M. Peters© 2002 South-Western Operations Management.

9-1 Organizational Design, Competences, and Technology Copyright © 2013 Pearson Education, Inc. Publishing as Prentice Hall.

Operational Research & ManagementOperations Scheduling Flow Shop Scheduling 1.Flexible Flow Shop 2.Flexible Assembly Systems (unpaced) 3.Paced Assembly.

Process Strategy The process by which a firm converts inputs into goods and services The purpose is to build a production process that meets customer.

Operations Management Dr. Ron Lembke.  Price / Quality / Speed?  Decoupling Point  Make to Stock – ready on the shelf – Breyer’s  Assemble to Order.

Manufacturing Process Selection and Design

Methods, Standards, and Work Design

McGraw-Hill/Irwin Copyright © 2007 by The McGraw-Hill Companies, Inc. All rights reserved. 16 Scheduling.

Process (Job Shop) Layouts

Chapter 6 Production Processes.

1 ISE 195 Fundamentals of Industrial & Systems Engineering.

Chapter 4. Chapter 4 Learning Objectives Describe steps in the production planning process of a high volume manufacturer like Fitter Snacker Describe.

© 2006 Prentice Hall, Inc.7 – 1 Operations Management Chapter 5 – Process Strategy © 2006 Prentice Hall, Inc. PowerPoint presentation to accompany Heizer/Render.

Chapter 4 Process Design.

15-1Scheduling William J. Stevenson Operations Management 8 th edition.

To Accompany Krajewski & Ritzman Operations Management: Strategy and Analysis, Seventh Edition © 2004 Prentice Hall, Inc. All rights reserved. Chapter.

11DSCI4743 Capacity Management Capacity management is planning & controlling resources needed to meet production objectives –Planning: determining resources.

Strategic Production Planning Now showing at your local university.

Lecture Outline 5 Manufacturing Systems (Production and Operations Management) p. 304+

Part 3 Managing for Quality and Competitiveness © 2015 McGraw-Hill Education.

1  Types of production systems. 2 Factors Influencing Process Choices  Volume: Average quantity of the products produced in a manufacturing system –Low.

What is Production management? Production management is the process of effectively planning and regulating the operations of that part of an enterprise.

Producing World Class Goods and Services Chapter 12.

Chapter 17 Scheduling. Management 3620Chapter 17 Schedule17-2 Overview of Production Planning Hierarchy Capacity Planning 1. Facility size 2. Equipment.

Chapter 4 Process design Source: Joe Schwarz,

Scheduling. Scheduling: The allocation of resources over time to accomplish specific tasks. Demand scheduling: A type of scheduling whereby customers.

CHAPTER SEVENTEEN SCHEDULING Chapter 17 Scheduling.

Activity Scheduling and Control

Manufacturing and Service Processes

Chapter 13 Aggregate Planning.

1 ME Production Planning and Inventory Control.

Production management Content – Core work process – 6 W – Production classification – EOQ – Lean Manufacturing – Systems of Management production.

PRODUCTION MANAGEMENT

Facility Inventory Old Facilities Modern Facilities Classroom Size

Chapter 14 Aggregate Planning.

13 Aggregate Planning.

The Production Process

MENG 447 Manufacturing Systems Automation Chapter 1*

Chapter 5 Process Analysis.

Modeling Scheduling Problems

Chap 11 Learning Objectives

Facilities Planning and Design Course code:

Introduction to Scheduling Chapter 1

MANUFACTURING SYSTEMS

8 Job Sequencing & Operations Scheduling CHAPTER Arranged by

Incorporating lot sizing into MRP

Flexible Assembly Systems

Capacity Management Capacity management is planning & controlling resources needed to meet production objectives Planning: determining resources needed.

Presentation transcript:

© J. Christopher Beck Lecture 28: Supply Chain Scheduling 2

© J. Christopher Beck Outline Discrete Manufacturing vs Continuous Manufacturing What Difference Does It Make? A Typical Framework for Supply Chain Optimization Medium Term Planning Short Term Scheduling Information System Issues

© J. Christopher Beck Supply Chain Scheduling

© J. Christopher Beck Discrete vs. Continuous Manufacturing Continuous (process) production Main inventory/products are finely divisible Steel, shampoo, paper Discrete production Main inventory/products are individually countable Cars, computers, consumer electronics Scheduling problems are different

© J. Christopher Beck Continuous: 1. Main Processing Raw materials are transformed to intermediate products Machines have high start-up/shutdown costs and High changeover costs Often fixed batch sizes Usually run 24/7

© J. Christopher Beck Continuous: 2. Finishing Products of main processes are “specialized” Cut, bent, extruded, painted, printed, … Often these are commodities Many clients Mix of make-to-stock, make-to-order Due dates, sequence dependent changeovers, and inventory management are important

© J. Christopher Beck Discrete: 1. Primary Conversion Like finishing in continuous Stamping, bending, cutting Process is generally pretty simple Output is often a part Car body part, computer case, … Schedule is often integrated with downstream processes

© J. Christopher Beck Discrete: 2. Main Production Many different operations of many tools 100 step process for semiconductors! Machines are very expensive Often organized like a job shop Each order has its own route, quantity, due date Sequence dependent changeovers

© J. Christopher Beck Discrete: 3. Assembly Put together parts Machines are cheap but material handling is important Assembly lines cars or consumer electronics Due dates, changeovers, sequencing, …

© J. Christopher Beck Table 8.1 SegmentProcessHorizonClock SpeedDifferentiation Continuous: Main PlanningLong-mediumLowVery low Continuous: Finishing Planning/ scheduling Medium-shortMedium/ High Medium/low Discrete: Conversion Planning/ scheduling Medium-shortMediumVery low Discrete: Main Planning/ scheduling Medium-shortMediumMedium/low Discrete: Assembly SchedulingShortHigh

© J. Christopher Beck Table 8.2 SegmentOptimization Problem Solution Technique Continuous: MainLot-sizing, cyclic scheduling MIP Continuous: Finishing Single machine, parallel machine Batch scheduling, inventory control, dispatch rules Discrete: ConversionSingle machine, parallel machine Batch scheduling, dispatch rules, CP Discrete: MainFlow shop, job shopIP, CP, shifting bottleneck, LS Discrete: AssemblyAssembly lineGrouping, spacing, sequencing techniques, CP, LS

© J. Christopher Beck Supply Chain Decomposition Medium- term planning Short- term scheduling Stage 1Stage 2Stage 3Stage 4

© J. Christopher Beck Medium-term Aggregation Time abstraction 1 unit = 1 day or 1 week Product abstraction Work at product “family” level e.g., Tuborg beer, not 6-pack, 12, 24, keg, … Cost/job/capacity abstraction Average processing times Sequence dependencies ignored Factory treated as a single resource

© J. Christopher Beck Medium-term Planning Results Daily or weekly Demand for product families at each facility Inventory levels Transportation requirements No detailed scheduling has been done!

© J. Christopher Beck Medium-term Constrains Short-term Medium- term planning Short- term scheduling Stage 1Stage 2Stage 3Stage 4

© J. Christopher Beck Medium-term Decouples Short-term Medium- term planning Short- term scheduling Stage 1Stage 2Stage 3Stage 4

© J. Christopher Beck Short-term Scheduling Uses More Precise Data Time in minutes or seconds Horizon ≈ week, 2 weeks Jobs and resources are detailed Set-up time/cost are taken into account Products not just product families Demand for each product is represented

© J. Christopher Beck Problem Short term schedule solution may not exist! Why? May require feedback of information to the medium-term and a resolve Carlsberg takes hours for a medium- term solve …

© J. Christopher Beck Feedback Mechanism Needed Medium- term planning Short- term scheduling Stage 1Stage 2Stage 3Stage 4

© J. Christopher Beck Information Infrastructure Requirements Medium- term planning Short- term scheduling Stage 1Stage 2Stage 3Stage 4