Session 2a Decision Models -- Prof. Juran.

Slides:

Advertisements

Similar presentations

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

Advertisements

Chapter 13 Learning Objectives

1 Chapter 14 Making the most of things: Linear Programming.

Example 12.8 Simulating Stock Price and Options | 12.2 | 12.3 | 12.4 | 12.5 | 12.6 |12.7 | 12.9 | | | | | |

Dynamic Workforce Planning Models

Introduction to LP Modeling

A Multiperiod Production Problem

Cost Behavior, Operating Leverage, and Profitability Analysis

February 7, 2002 A brief review of Linear Algebra Linear Programming Models Handouts: Lecture Notes.

BUS 220: ELEMENTARY STATISTICS

MULTIPLICATION EQUATIONS 1. SOLVE FOR X 3. WHAT EVER YOU DO TO ONE SIDE YOU HAVE TO DO TO THE OTHER 2. DIVIDE BY THE NUMBER IN FRONT OF THE VARIABLE.

Year 6 mental test 10 second questions Numbers and number system Numbers and the number system, fractions, decimals, proportion & probability.

1 Options. 2 Options Financial Options There are Options and Options - Financial options - Real options.

COST-VOLUME-PROFIT (CVP) ANALYSIS

Slides prepared by JOHN LOUCKS St. Edward’s University.

Order of Operations Lesson

Lecture 2 A Telephone Staffing Problem

1 1 Slide Chapter 1 & Lecture Slide Body of Knowledge n Management science Is an approach to decision making based on the scientific method Is.

QUANTITATIVE METHODS FOR BUSINESS 8e

What Is Cost Control? 1 Controlling Foodservice Costs OH 1-1.

LP Formulation Practice Set 1

Chapter 12 Capturing Surplus.

1 Project 2: Stock Option Pricing. 2 Business Background Bonds & Stocks – to raise Capital When a company sell a Bond - borrows money from the investor.

Chapter 17 Option Pricing. 2 Framework Background Definition and payoff Some features about option strategies One-period analysis Put-call parity, Arbitrage.

Chapter 15 Options Markets.

Chapter 16 Option Valuation.

Bounding Option Prices Using Semidefinite Programming S ACHIN J AYASWAL Department of Management Sciences University of Waterloo, Canada Project work for.

Session 6b. Decision Models -- Prof. Juran2 Overview Decision Analysis Uncertain Future Events Perfect Information Partial Information –The Return of.

An Application of Linear Programming Lesson 12 The Transportation Model.

Columbus State Community College

Process Analysis III. © The McGraw-Hill Companies, Inc., 2004 Operations -- Prof. Juran2 Outline Set-up times Lot sizes Effects on capacity Effects on.

McGraw-Hill/Irwin Copyright © 2007 by The McGraw-Hill Companies, Inc. All rights reserved. Chapter Eleven Cost Behavior, Operating Leverage, and CVP Analysis.

A Key to Economic Analysis

Slide 1 Notebook Friday, 22 August 2014Registration Respect yourself - Respect each other - Respect the environment Starter How many words can you find.

Risk and Return Learning Module.

8.6 Linear Programming. Linear Program: a mathematical model representing restrictions on resources using linear inequalities combined with a function.

LP—Graphical Solution Method MSci331—Week Convex Set and Extreme Points 2.

1 Agricultural Commodity Options Options grants the right, but not the obligation,to buy or sell a futures contract at a predetermined price for a specified.

Chapter Organisation 6.1 Bond Valuation 6.2 Common Stock Valuation

Addition 1’s to 20.

Equal or Not. Equal or Not

Test B, 100 Subtraction Facts

Chapter 5: Time Value of Money: The Basic Concepts

Session 3b Decision Models -- Prof. Juran.

Fundamentals of Cost Analysis for Decision Making

FIRM BEHAVIOR AND THE ORGANIZATION OF INDUSTRY

FIRM BEHAVIOR AND THE ORGANIZATION OF INDUSTRY

Option Valuation CHAPTER OPTION VALUATION: INTRODUCTION.

Session 5b. Decision Models -- Prof. Juran2 Overview Evolutionary Solver (Genetic Algorithm) Advertising Example Product Design Example –Conjoint Analysis.

Key Concepts and Skills

Session 7 Managerial Spreadsheet Modeling -- Prof. Juran1.

Session 4a. Decision Models -- Prof. Juran2 Overview More Network Models –Assignment Model (Contract Bidding) “Big Cost” trick –Project Management (House.

Financial Option Berk, De Marzo Chapter 20 and 21

Session 6a. Decision Models -- Prof. Juran2 Overview Multiple Objective Optimization Two Dimensions More than Two Dimensions Finance and HR Examples Efficient.

Strategic Allocation of Resources (Linear Programming)

Operations Management Linear Programming Module B - Part 2

Session 9b. Decision Models -- Prof. Juran2 Overview Finance Simulation Models Securities Pricing –Black-Scholes –Electricity Option Miscellaneous –Monte.

Example 6.2 Fixed-Cost Models | 6.3 | 6.4 | 6.5 | 6.6 | Background Information n The Great Threads Company is capable of manufacturing.

Session 1b. Decision Models -- Prof. Juran2 Overview Spreadsheet Conventions Copying, Pasting, Reporting Introduction to Solver.

COMPREHENSIVE Excel Tutorial 10 Performing What-If Analyses.

Spreadsheet Modeling of Linear Programming (LP). Spreadsheet Modeling There is no exact one way to develop an LP spreadsheet model. We will work through.

Linear Programming McGraw-Hill/Irwin Copyright © 2012 by The McGraw-Hill Companies, Inc. All rights reserved.

การใช้ Solver ใน Excel. Solver Part of a suite of commands sometimes called what-if analysis tools what-if analysis Find an optimal value for a Formula.

 Review the principles of cost-volume-profit relationships  Discuss Excel what-if analysis tools 2.

McGraw-Hill/Irwin Copyright © 2009 by The McGraw-Hill Companies, Inc. All Rights Reserved. Supplement 6 Linear Programming.

Linear Programming McGraw-Hill/Irwin Copyright © 2012 by The McGraw-Hill Companies, Inc. All rights reserved.

Presentation transcript:

Session 2a Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Overview Sensitivity Analysis Goal Seek and Data Table Marketing and Finance examples Call Center LP More Sensitivity Analysis SolverTable Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Sensitivity Analysis How do key outputs change in response to changes in inputs? Which inputs are the most important? How robust is our decision? Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Finance Example A European call option on a stock earns the owner an amount equal to the price at expiration minus the exercise price, if the price of the stock on which the call is written exceeds the exercise price. Otherwise, the call pays nothing. A European put option earns the owner an amount equal to the exercise price minus the price at expiration, if the price at expiration is less than the exercise price. Otherwise the put pays nothing. Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Finance Example The Black-Scholes formula calculates the price of a European options based on the following inputs: today's stock price the duration of the option (in years) the option's exercise price the risk-free rate of interest (per year) the annual volatility (standard deviation) in stock price Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Managerial Problem Definition How do the parameters in Black-Scholes affect the option price? Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Formulation Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Solution Methodology Notice the use of “if” statements in cells E10:E11 and B13, so that the same model can be used for both puts and calls. Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Data Table Similar to copying a formula over many cells, but better for complicated functions (e.g. Black-Scholes) Specify Row and/or Column Input Cells Tricky to learn, but worth it Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Solution Methodology Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Solution Methodology Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Solution Methodology Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Solution Methodology Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Conclusions Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Conclusions Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Conclusions Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Marketing Example Microsoft is trying to determine whether to give a $10 rebate, a $6 price cut, or have no price change on a software product. Currently 40,000 units of the product are sold each week for $45. The variable cost of the product is $5. The most likely case appears to be that a $10 rebate will increase sales 30% and half of all people will claim the rebate. For the price cut, the most likely case is that sales will increase 20%. Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Managerial Problem Definition Under what circumstances should Microsoft offer the rebate, and under what circumstances should they offer the price cut? (Or should they do neither?) Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Formulation Decision variables: 3 possible marketing policies. Objective: Maximize Profit. Constraints: Various assumptions have been made (current sales level, current cost structure, consumer behavior in response to marketing policies). Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Formulation Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Formulation Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Formulation Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Solution Methodology 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 A B C D E F G H Inputs Current sales 40000 Current price $45 Unit variable cost $5 Data on rebates Amount of rebate $10 Pct taking advantage 50% Increase in sales 30.00% Data on price cut Amount of cut $6 20% Profits Current $1,600,000 With rebate $1,820,000 With price cut $1,632,000 =B2*(B3-B4) =((B2*(1+B9))*(B3-B4))-((B2*(1+B9)*B8)*B7) =B2*(1+B13)*(B3-B12-B4) Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Under current assumptions, the rebate policy appears to be optimal. How sensitive is this result to possible errors in our assumptions? Specifically, how wrong could we be as to the 30% assumption and still be correct in using the rebate? What is the point of indifference between the rebate and the price cut? Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Goal Seek Similar to Solver, but simpler Specify a Target Cell and a Changing Cell “Value” must be a number (not a cell reference) Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Goal Seek Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Solution Methodology Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Conclusions and Recommendations Go with the rebate as long as the increase in sales is expected to be at least 16.57%. Under current assumptions, Microsoft would earn $1,820,000 profit (an improvement of $220,000). Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran What If? Important parameters are not known; they are only estimates. How robust is the rebate strategy? Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Two-Way Data Table Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Two-Way Data Table 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 A B C D E F G H I J Inputs Best policy Rebate Current sales 40000 Current price $45 Unit variable cost $5 Data on rebates Two-way data table for best policy Amount of rebate $10 Increase from rebate (along side) and from price cut (along top) Pct taking advantage 50% 10% 15% 20% 25% 30% Increase in sales Data on price cut Amount of cut $6 35% 40% Profits Current $1,600,000 With rebate $1,820,000 With price cut $1,632,000 =IF(B16=MAX(B16:B18),"Current",IF(B17=MAX(B16:B18),"Rebate","Price cut")) =E1 Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Two-Way Data Table Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Two-Way Data Table 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 A B C D E F G H I J Inputs Best policy Rebate Current sales 40000 Current price $45 Unit variable cost $5 Data on rebates Two-way data table for best policy Amount of rebate $10 Increase from rebate (along side) and from price cut (along top) Pct taking advantage 50% 10% 15% 20% 25% 30% Increase in sales Price cut Data on price cut Amount of cut $6 35% 40% Profits Current $1,600,000 With rebate $1,820,000 With price cut $1,632,000 Unless Microsoft thinks the sales increase from a price cut will be high and the sales increase from a rebate will be low, it looks like the rebate is the way to go. =IF(B16=MAX(B16:B18),"Current",IF(B17=MAX(B16:B18),"Rebate","Price cut")) =E1 Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Conclusions and Recommendations Unless Microsoft thinks the sales increase from a price cut will be high and the sales increase from a rebate will be low, it looks like the rebate is the way to go. Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Call Center Example For a telephone survey, a marketing research group needs to contact at least 150 wives, 120 husbands, 100 single adult males, and 110 single adult females. It costs $2 to make a daytime call and (because of higher labor costs) $5 to make an evening call. Because of a limited staff, at most half of all phone calls can be evening calls. Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Call Center Example Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Managerial Problem Definition We want to minimize the total cost of completing the survey, subject to the various probabilities of reaching certain types of people at certain times of the day, costs of making calls, and minimum requirements for numbers of calls to certain demographic groups. Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Formulation Decision Variables We need to decide how many evening calls and how many daytime calls to make. Objective Minimize the total cost. Constraints We need to contact 150 wives, 120 husbands, 100 single adult males, and 110 single adult females. At most half of all phone calls can be evening calls. Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Formulation Decision Variables X1 = Daytime Calls, X2 = Evening Calls Objective Minimize Z = 2X1 + 5X2 Constraints 0.30X1 + 0.30X2 ≥ 150 0.10X1 + 0.30X2 ≥ 120 0.10X1 + 0.15X2 ≥ 100 0.10X1 + 0.20X2 ≥ 110 1X1 ≥ 1X2 1X1, 1X2 ≥ 0 Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Solution Methodology Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Solution Methodology Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Solution Methodology Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Solution Methodology Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Optimal Solution Make 900 Daytime calls and 100 Evening calls. Total cost = $2,300. Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran SolverTable Similar to Data Table; works with Solver Solves optimization problems repeatedly and automatically One or two inputs can be varied Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Example: Sensitivity to Calling Costs Starting with the optimal solution to the initial problem, use the SolverTable add-in to investigate changes in the unit cost of either type of call. Specifically, investigate changes in the cost of a daytime call, with the cost of an evening call fixed, to see when (if ever) only daytime calls or only evening calls will be made. Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Solution Methodology Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Solution Methodology Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran SolverTable Output Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Conclusions Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Conclusions If daytime calls are very inexpensive, we can dispense with evening calls altogether. However, we will always have to make at least 400 daytime calls, no matter how expensive they are. Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Conclusions Decision Models -- Prof. Juran Decision Models -- Prof. Juran

Decision Models -- Prof. Juran Summary Sensitivity Analysis Goal Seek and Data Table Marketing and Finance examples Call Center LP More Sensitivity Analysis SolverTable Decision Models -- Prof. Juran Decision Models -- Prof. Juran