I am looking forward to working with you and hope that you will find the course both enjoyable and informative.

Professor Hossein Arsham   

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1. Welcome Message
2. Tutorial Help for This Course
3. Course Description
4. Course Structure, Ingredients & Learning Objects
5. The School's Mission and the Course Objectives
6. Learning Style for this Course
7. What Math Do I Need for this Course?
8. Required Textbook, Recommended Readings, & Computer Package
9. Computer-assisted Learning: WinQSB Package
10. Course Requirements, Grading Criteria & System
11. Instructions for Homework Assignment
12. Homework Assignment to Do Before Each Class Meeting and Sample Tests

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Tutorial Help for This Course

You may seek services (free-of-charge) tutorial help from the Academic Resource Center (ARC) at Academic Center Room 116 or by calling at (410) 837 - 5385. Professor Yoosef Kkhadem is the Coordinator of Math Service at ARC. He is knowledgeable, and has both experienced and patient. We are fortunate to have him as the tutor for this course.
If you do well in this course and would consider tutoring students in future semesters, please send an Email to the Academic Resource Center.

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Dear Student and Decision-Maker

Welcome to: Decision Science: Making Good Strategic Decisions

I look forward to working with you and hope that you will find the course both enjoyable and informative.

In our increasingly complex world, the tasks of the decision-makers are becoming more challenging every day. The decision-maker must respond quickly to events that take place at an ever-increasing speed. A decision-maker must incorporate an often bewildering array of choices and consequences into his or her decisions.

The Web site for this course was designed and created for you. No one need be ashamed of what he or she does not know or how long it takes to master new information. Learning by the Web-enhanced course material can be self-paced and non-judgmental. Using advantages of this technology to expand learning opportunities is especially crucial because we live in a time when learning is a necessity and no longer a luxury.

At one time, it was sufficient for a firm to produce a quality product. As competition grows in today's market, simply producing a quality product is not sufficient. Today, a firm must produce a quality product at less cost than its competitors and simultaneously manage inventory, warehouse space, procurement requirements, etc. In the future, still greater demands will be placed upon decision-makers.

A manager makes many decisions everyday. Some decisions are routine and inconsequential, while others may impact the operations of a firm. Some decisions cause a firm to lose or gain money or determine whether goals are reached. The field of Decision Science (DS), known also as Operations Research (OR), Management Science (MS), and Success Science (SS), has helped managers develop the expertise and tools to understand decision problems, put them into mathematical terms and solve them.

Many tools and techniques help individuals and organization make better decisions. This course provides decision makers and analysts the tools that provide a logical structure to understand the mathematical techniques to solve formulated (i.e. modeled) problems. The primary tools are linear programming and decision analysis, which provide structure and value in helping define and under-stand a problem. In this course you will learn OR/MS/DS/SS methodologies to determine optimal strategic solutions to described problems. Personal Computers allow application of these techniques even in the small business environment. Finally, a clear understanding of a general approach to problem solving enables you to use other applied decision-making and planning techniques in this course.

Since the strategic solution to any problem involves assumptions, it is necessary to determine how much the strategic solution changes when the assumptions change. You learn this by performing "what-if" scenarios or sensitivity analysis.

Preparation for management, whether it is related to technology, business, production, or services, requires knowledge of tools, which aid in determining feasible and optimal policies. In addition to communication and qualitative reasoning skills, enterprises wishing to remain competitively viable in the future, need decision support systems to help them understand the complex interactions between all components of an organization's internal and external system. Such components are found in environmental design, transportation planning and control, facilities management, military mission planning and execution, disaster relief operations, investment management, and manufacturing operations.

An organization, like other organisms, must keep itself in a state of homeostasis--subsystems regulate one another so none of the parts is ahead or behind the system as a whole. This interaction is not trivial; mathematical modeling assists in understanding these fundamental relationships. OR/MS/DS/SS concepts focus on communication of results and recommended action. This helps build a consensus concerning the possible outcomes and recommended action. The decision-maker might incorporate other perspectives of the problem, such as culture, politics, psychology, etc., into the management scientist's recommendations.

The creation of Decision Science software is one of the most important events in decision-making. OR/MS/DS/SS software systems are used to construct examples, to understand existing concepts, and to find new managerial concepts. New developments in decision-making often motivate developments in solution algorithms and revisions of software systems. OR/MS/DS/SS software systems rely on a cooperation of OR/MS/DS/SS practitioners, algorithms designers and software developers.

This course overviews the major quantitative modeling tools successfully used to model the complex interactions described above. Although not exhaustive, this course provides framework for further study. The following tools will be studied: analytically based solutions to math models, linear programming, decision theory, integer programming and network models Decision Science encompasses many disciplines of study because decision-making is a central human activity. Appreciation of decision making is wonderful: it makes what is excellent in this thinking process belongs to you as well.

Just like you, most of your classmates are employed full time. They are engineers, doctors, lawyers, and other professionals. You and your classmates want to learn the business side of their professions. It is important to learn the language of the managers to overcome communication barriers. For example, engineers will learn how to translate "precision" into extra dollars in earning/saving.

In each class I teach, there are some students who find it difficult to rethink and re-evaluate their pre-conceived ideas. In decision-making, one must have an open-mind to be able to think differently and to see from many perspectives. University classrooms provide the environment for debate and the exchange of ideas. Open-mindedness is the main requirement in achieving the ultimate goal of education, which is to be able to think for yourself. Change of opinion is often the progress of sound thought and growing knowledge.

Upon completion of this course, you may find that it "validates" what you think about making good strategic decisions and causes a peace of mind. The contents of this course will help you to systematize what you already know from your own professional experience.

For my teaching philosophy statements, visit the Web site On Learning & Teaching.

Feel free to contact me via phone, faxes, or email. There is a lot of material to cover, so let's start now!

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Course Description

A study of a range of problems and applications to managerial decision making using scientific and analytical methodology. Topics include an in-depth understanding of linear programming and sensitivity analysis and an introduction to decision analysis. Problem recognition, model building, model analysis and managerial implications are the primary objectives with special emphasis on understanding the concepts and computer implementation and interpretation.
Prerequisites: INSS 200, MATH 107, and APST 287.

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Course Structure, Ingredients & Learning Objects

Course Structure: Your course materials are divided into seven ordered sections:

(For your weekly homework, visit the Homework Assignment section on this site).

• The Foundation of Decision-Making Process: When one talks of "foundations", usually it includes historical, psychological, and logical aspects of the subject.

• Overcoming Serious Indecisiveness: Behavioral aspect of making hard decisions and how modern managers think on tough decisions and opportunities.

• Quantitative Tools for Modeling: Our high-school math review including Analytical Geometry, and Working with Numbers.

• Deterministic Modeling: How to get what you expect. Course materials in this part will be presented in the context of a production and operations management applications with economics implications of the optimal decision. Our case study is the decision problem of allocating scarce resources among competitive means.

• Deterministic Models: It includes the linear optimization of Network Models and Integer Programs.

• Probability and Statistics for Modeling Risky Decisions: The needed review of your Business Statistics.

• Probabilistic Modeling: Decision making under uncertainty, i.e., what you expect you may not get. Materials in this part of the course will be presented in the context of financial portfolio selections, and marketing a new product decisions.

Course Ingredients: The Course Ingredient Components Include:

1. A set of Technical Keywords and Phrases,
2. A Collection of Problem-Solving Methodologies, and
3. Managerial Interpretations, Their Implications and Applications.

Learning Objects: There are varieties of sources in helping you to understand the foundation of decision making. Each of the following items provides you with different perspectives on our weekly topics.

1. Textbook: Your textbook is the main source reading and the exercise before each class meeting.
2. Lecture Notes: Lecture notes are not your textbook substitute. They are designed to meet your needs, as I perceive while lecturing.
3. Live Lectures & Handouts: The lectures are the bases of your interactions as a learning process, with your classmates and me.
4. Computer Assisted Learning: My teaching style deprecates the 'plug the numbers into the software and let the magic box work it out' approach. The software is an effective tool for experimentation in serving your needed "hands on experience" for understanding the managerial implication of the concepts for yourself.

I am sure that your careful readings and effective use of the above learning objects, provide various perspectives, create a deep understanding of the topic, together with the wholeness and manifoldness of this course.

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Required Textbook, Recommended Readings, & Computer Package

Required Textbook: Applied Management Science: Modeling, Spreadsheet Analysis, and Communication for Decision Making,
by Lawrence J., Jr., and B. Pasternack
John Wiley & Sons, 2^nd edition, 2002, ISBN: 047126332 X.

A copy of the textbook is available in Langsdale Library at Reserved Circulation desk (under call no. B29). You must have a valid student ID with you to use the book.

The text is a reasonably comprehensive text in its treatment of various Management Science methodologies. A good many of the examples in the book are illustrated using Excel add-ins for computation purposes. We will however, make use of WinQSB which is commercial grade stand-alone software that also happens to be reasonably compatible with the text.

With the purchase of this book you will also receive the WinQSB Decision Support Software for MS/OM. The WinQSB is the Windows version of the QSB (Quantitative Systems for Business) software package runs under the CD-ROM Windows. There is no learning-curve for this package, you just need a few minutes to master its useful features.

The WinQSB is available on the UB network: You may use the computer lab located at the basement of the Business Center to do your WinQSB computer homework. To access any WinQSB modules: (1) Click on START, (2) Click on All Programs, (3) Click on WinQSB.

The WinQSB Decision Support Software for MS/OM is also available separately from the John Wiley & Sons publisher, ISBN 0-471-40672-4, 2003.

Your textbook is available at the UB Bookstore, (410) 837-5604.

The textbook chosen for this course is excellent. It is a modern, well-written and clear account of the issues facing decision makers doing business. It is easy to read, has broad coverage and is eminently suitable for self-study with many applications.

Notice that the Topics Web site units contain my weekly lecture notes. The purpose of these units is not to replace your textbook. Rather, its purpose is to provide you with other perspectives on the same topics to enhance your deep understanding.

Recommended Readings: I strongly recommend a reading of the following books:

Linstone H., Decision Making for Technology Executives: Using Multiple Perspectives to Improved Performance, Artech House, SBN: 0890064032, 1999. A copy of this book is also available as "a reserve item" for your use upon request at the Langsdale Library.

Mingers J., and A. Gill, (Eds.), Multimethodology: The Theory and Practice of Integrating Management Science Methodologies, Wiley & Sons, 1997. A copy of this book is also available at the Langsdale Library.

Further Readings: There are some Decision-Making textbooks that you may find helpful. They are located at the Langsdale Library:

Decision-Making Books:

1. Decision sciences: An Integrative Perspective
   By C. Kunreuther, Paul J.H. Schoemaker
   Cambridge University Press, 1993
   Location: HD30.23 .K46
   

2. Management science: An Aid for Managerial Decision Making
   By M. Austin, James R. Burns
   Macmillan Press, 1995
   Location: T56 .A87
   

3. Management Science: Decision Making through Systems Thinking
   By Hans G. Daellenbach, Donald C. McNickle
   Macmillan Press, 2005
   Location: T57.6 .D32
   

4. Management Science for Decision Makers
   By Larry M. Austin, Parviz Ghandforoush
   West Pub. Co., c1993
   Location: T56 .A88
   

5. Management Science for Decision Makers
   By Larry M. Austin, Parviz Ghandforoush
   West Pub. Co., 1993
   Location: T56 .A88
   

6. Management Science Knowledge: Its creation, Generalization, and Consolidation
   By Arnold Reisman
   Quorum Books, 1992
   Location: T56 .R542
   

7. Operations research: A Fundamental Approach
   By James E. Shamblin, G. T. Stevens, Jr
   McGraw-Hill, 1994
   Location: T57.6 .S48
   

8. Operations Research: Applications and Algorithms
   By Wayne L. Winston
   Duxbury Press, 1997
   Location: QA402.5 .W54
   

Some other Decision Science textbooks are located on the following stacks: HD28, HD30, HD31, QA402, and T56, also Decision making Video: Values and goals, Alternatives and information, Outcomes and actions, HD30.23.D43 1987 VC, at the Langsdale Library.

Computer Package: The WinQSB is available on the the University NT server (free-of-charge). Unfortunately, one cannot access the system remotely. To use the system you need an NT account. To obtain your NT account see the Technical Assistance (TA) at the lower level of Business Center. After obtaining your username and a password then you can access the NT system. To reach the QSB, click on Start, choose the Business School Applications, then click on the Shortcut to QSB, or QSB. Then, pick-up the application you wish. All WinQSB applications are therein.

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Course Requirements, Grading Criteria & System

Course Requirements & Grading Criteria

Readings & homework	25%
First examination	35%
Final examination	40%

General Instructions

• Keep a copy of your completed homework before submitting until you receive a grade. If an assignment is lost or delayed, you will be asked to resubmit another copy. If you are unable to resubmit another copy, you will be required to redo the assignment.

• Weekly homework will be assigned and graded by the instructor.

• Homework may be collected randomly.

Your examinations have similar format as the Sample Exams, consisting of two parts:

• The application part contains a few problems similar to your homework. The weekly homework problems are from a specific section of the book therefore, it is easy to know what formula or procedure to use. However, in real life, as in the test you have to know what procedure is the right one to use.
• The conceptual part contains a few questions that come from your weekly readings assignments. These questions test how careful and reflective your readings have been by coming up with correct, exclusive, and inclusive answers.
• Homework: Assignments (100 points) will be collected and graded. Your homework assignment consists of two parts:
  1. Reading the lecture notes, Readings and problem solving from your textbook (80 points).
  2. Compute Implementation (whenever applicable) using QSB package, Excel, JavaScripts, etc., since without a computer package one cannot perform any realistic decision-making process and analysis (20 points).

  You do not have to type your homework assignments; you may save some times in spending more on learning than typing. In this case please, please hand-in your eligible homework on time.

  Homework Due Date: Meeting deadlines and even sending me material before deadlines are very important, since you will be engaging in group learning activities where time is crucial. So you should make every effort to complete your work on time. Therefore, late homework submissions carry no credit at all.

• Computer assignment: The computer-assisted learning assignment provide you a "hands-on" experience, which will enhance your understanding of the concepts and techniques covered in this course.

  As you used to do experiments in physics labs to learn physics, computer-assisted learning enables you to use any online interactive tools available on the Internet to perform experiments. The purpose is the same, i.e., to understand managerial concepts such as the sensitivity analysis in your decision-making, by using applets which, are entertaining and educating.

  The appearance of computer software, Java Applets, Online computation is one of the most important events in the process of teaching and learning concepts in model-based decision making courses. These tools allow you to construct numerical examples to understand the concepts, and to find their significance for yourself.

  Computer-assisted learning is similar to the experiential model of learning. The adherents of experiential learning are fairly adamant about how we learn. Learning seldom takes place by rote. Learning occurs because we immerse ourselves in a situation in which we are forced to perform. You get feedback from the computer output and then adjust your thinking-process if needed.

• Examination Facts: Exams are 2-hours long, in-class, closed-book and closed-notes. You are not allowed to use my Lecture Notes, nor your submitted Home-works. However, you are allowed to use your own Pre-Prepared Summary-Sheets for Exam. Read carefully the Summary-Sheets for the Exam on this page, while preparing for the test.

  Since you are allowed ONLY to use your own Pre-Prepared Summary-Sheets for Exam. Read carefully the Summary-Sheets for the Exam on this page, while preparing one for the test.

  You will also need graph paper (Word.Doc), graph paper (PDF), a scientific calculator, and a blue book (available at the Bookstore).

  When taking your exam, present your work in detail. This will allow me to give partial credit.

  The exams are not in any particular format so expect both standard numerical problem solving and conceptual type questions. The exams will test your understanding of the material covered in this course. The main purpose of taking the examinations is to find out how reflective your mind is in answering a set of questions correctly. The objective is to maximize the number of correct solutions, subject to a limited time constraint (a 2-hours session). Samples of past exams are available on this Web site for inspection.

  Click here to see a Summary-sheet prepared by one of your classmates. If you think you have prepared a better one, kindly send it to me via an attached email. Thank you.

  To prepare yourself for exams, review all topics, homework assignment and lecture notes.

  How to Prepare Your Summary-Sheets for the Exam Your mind is what your brain does. Self-consciousness is self-knowledge. The process of becoming conscious distributes what you know throughout your brain via the brain neural network branches, unlike memorizing, which connects only two nodes of the network. The availability and expansion of what you know throughout your neural network branches make the information processing of your brain accurate. Thus, you possess a reflective, brilliant knowledgeable mind.

  The process of making your own summary-sheet is the idea of contemplating the topics you have learned. By definition of esthetics, the longer you contemplate on what you have learned the more beautiful the subject mater becomes. Beauty and contemplation is distinguished from other mental manifestations; contemplation is the result of the perfect apprehension of relations and topics.

  Use the following Guide to prepare your Summary Sheets:

The above process helps to crystallize your mind to be reflective and responsive to questions posed about topics you've learned in this course and reinforces the topics in your mind.

To view a Summary-Sheet for the first test, prepared by one of your classmates, click here. If you think you have prepared a better one, kindly send it to me via an attached email. Thank you.

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What Math Do I Need for this Course?

Don't Panic, high school math will suffice! There will be some refreshers. The following sites may help:

High school math refresher.

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Homework Assignment to Do Before
Each Class Meeting and Sample Tests

Please read and follow the Instructions for your homework assignment. Thank you.

We will proceed in the following sequence (Not a weekly-schedule of topics).

1. Reading Assignment and Essay: Read the Preface, the Management Science Modeling (Ch. 1). Read also the introductory sections of all the chapters (i.e., sections 1 of all chapters) in your textbook. This is a good way to get a grip on your textbook and the concepts contained therein.
   Visit the main Web site of this course and go over the title of the topics therein. Visit the following Web sites:
   INFORMS
   Decision Sciences Institute
   OR Page
   Operational Research Society

   After you did your reading assignment, then write a 2-page essay (format-free) entitled: "What is Applied Management Science?" Your essay should, among others, address some of the following questions:

   • What is Applied, what is Management, what is Science?
   • What benefits would you expect from using management science?
   • Why do you think the topic of decision-making process has not received mainstream attention?
   • Business, education and psychology communities embrace decision aides. Do you think the general public will? (why or why not?)
   • What is your perception of the problem people have with indecisiveness as it relates to major life decisions (i.e. career, family, etc.)?
   • It seems to me that the topic of decision-making as problems-solving should be taught in high schools, too, because of its implications on individuals and society. Would you agree or disagree and why?
   • Is management science a form of Applied Decision-Making in Organizations, and Business Problem Solving?
   • Does management science make decisions?
   • Why has quantitative analysis for management problems become more widely used in the past years?
   
   

2. Analytical Geometry Review: Read Ch. 2, the course lecture notes and then Formulate (do not solve) Problem 2.7 (i.e., Chapter 2, Problem 7, Wilson Manufacturing Decision, on page 103) as a linear program (LP).
   I do recommend refreshing your knowledge about solving systems of equations by visiting the Web site Solving System of Equations.

   Visit the following Web site:
   The Zero Saga & Confusions With Numbers

3. Linear Programming (LP): Graphical Solution Algorithms, Read Ch. 2 and the course lecture notes. Do all parts of problem 2.7, with a detailed step-by-step description of the graphical method, using graph paper (Word.Doc), graph paper (PDF). This part of assignment, makes one conscious about what one does.

   Alternatively you may use:
   The LP Grapher

4. Computer Implementation: Solve problem 2.7 by the WinQSB and compare the results with your graphical solution.

5. Integer LP Applications: Formulation and Solution Read What Can Go Wrong in Integer Programming? and Chs. 2, and 3. Formulate problems 2.33 and 2.34, and use the WinQSB package to find the optimal solutions with some managerial explanation on the output for each problem.

   Check your formulations with those one page 628-629 before using your software.

   Visit the following Web site:
   A Tutorial on Integer.

6. Widely Used LP Applications: The Network Models Read Ch. 4, and the course lecture notes. Solve at least any two of the following problems 4.1, 4.2, 4.6, 4.7, and 4.9 by implementing them on WinQSB, provide your managerial interpretation of the optimal solution for each problem.
   You may ask what are the Managerial Interpretations?

   Managerial Interpretations: The decision problem is stated by the decision-maker often in some non-technical terms. When you think over the problem, and finding out what module of the software to use, you will use the software to get the solution. The solution should also be presented to the decision-maker in the same style of language, which is understandable, by the decision-maker. Therefore, just do not give me the printout of the software. You must also provide managerial interpretation of the solution in some non-technical terms.

   Warning: Computer solutions for the network and integer problems are valid, however the produced sensitivity results may not be valid. This is due to the facts that, among other things, these problems are Integer-LPs. Moreover, in the case of network models anyone constraint in any of these models is always redundant. Therefore, simply ignore the sensitivity analysis of the printouts.

7. Sensitivity Analysis: Review the Sensitivity Analysis section of the course lecture notes. Apply the right-hand-side (RHS) value and coefficients of the objective function (known as the cost coefficients, because historically during World War II, the first LP problem was a cost minimization problem) sensitivity range to problem 2.7 in Ch. 2, computer implementation together with managerial interpretations of the computer solution. Construct the dual problem, solve it and then provide economical interpretations for the dual and its solution. To construct the dual of a given problem by using WinQSB, click on Format, then select "Switch to the Dual Form".

   As you know by now, this course has three ingredients: A set of Technical Keywords and Phrases, A Collection of Problem-Solving Algorithms, and Managerial Interpretations, and the most important of all their Implications and Applications to Business Decision-Making. As I pointed out this course is not about say, linear programming (LP), we are using LP as an application and as a tool. Since you have mastered, the Keywords & Phrase, and Techniques, now we are able to concentrate on the Managerial Business Decision-Making Process. The lecture note section on Managerial Interpretation of the WinQSB Combined Report deals with how to interpret and describe the computational results in computer output such as, the optimal strategic solution, sensitivity ranges, shadow prices, and other useful information for the decision-maker.

   Perform some "what-if" scenarios analysis on Problem 2.7. That is, use your computer software package to do some numerical experimentation on variations of Problem 2.7. Again, this computer-assisted learning assignment provides a "hands-on" experience, which will enhance your understanding of the technical concepts, involved in various topics of controlling the problems, which we have covered. This computer-assisted learning concepts provides a "hands-on" experience which will enhance your understanding of the technical concepts involved in various topics of sensitivity analysis that we have covered.

8. Spring Break (March 19-25): No Class Meeting. Homework: Prepare your summary-sheets Your Exams are 2-hours long, in-class, closed book and closed-notes. You may bring a few prepared Exams are 2-hours long, in-class, closed book and closed-notes. You may bring a a few prepared summary-sheets.

9. Review and Preparation for Exam: What have we learned up to now? Walking through Past Exam (Word.Doc).

   Preparation for the Exam: Your preparation is a very important undertaking in terms of integrating what you have learned each week in order to see the whole picture and inter-connectivity of the topics.

   To prepare yourself for the actual test, you are advised to review all the topics we have covered, to review past homework assignment, and then prepare your own few pages of a summary sheet. The process of producing a summary sheet, helps you to crystallize your mind to be reflective and responsive to any question posed to you about the topics you've learned in this course, it also helps you to reinforce the wholeness of the topics in your mind.

   To view a Summary-Sheets prepared by one of your classmates, click