Information and Decision Support Systems

Information and Decision Support Systems
Chapter 10 Information is an organization’s core asset. Transaction processing systems capture a large amount of data. Management information systems and decision support systems process and refine that data to provide vital information to decision makers and problem solvers. As organizations reengineer business processes, information systems designed for decision-making are no longer used solely by managers. To empower employees to make their own decisions and solve their own problems, organizations must provide employees at all levels of the enterprise with timely information provided by these systems. Chapter 10 discusses information systems used for decision-making and problem solving in business, including management information systems and decision support systems. After studying this chapter, you should be able to address the objectives on the next 3 slides. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Principles and Learning Objectives
Good decision-making and problem-solving skills are the key to developing effective information and decision support systems. Define the stages of decision making. Discuss the importance of implementation and monitoring in problem solving. Management information systems are designed to provide correct & timely information about business operations to the right person. Management information systems are explicitly designed to provide information for decision-making and problem-solving, while transaction processing systems are not. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

The management information system (MIS) must provide the right information to the right person in the right fashion at the right time. Define the term MIS and clearly distinguish the difference between a TPS and an MIS. Discuss information systems in the functional areas of business organizations. Like management information systems, decision support systems are designed to provide information to decision makers. However, decision support systems are designed to be used when problems are more unstructured. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Decision support systems (DSSs) are used when the problems are more unstructured. List and discuss important characteristics of DSSs that give them the potential to be effective management support tools. Identify and describe the basic components of a DSS. Group decision support systems and executive support systems extend the general approach of a DSS to specific situations, namely group and executive decision making and problem solving. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Specialized support systems, such as group decision support systems (GDSSs) and executive support systems (ESSs), use the overall approach of a DSS in situations such as group and executive decision making. State the goals of a GDSS and identify the characteristics that distinguish it from a DSS. Identify the fundamental uses of an ESS and list the characteristics of such a system. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Decision Making and Problem Solving
Before looking at the information systems designed to help decision makers and problem solvers, we should understand the decision making and problem solving processes. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Decision Making as a Component of Problem Solving
MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Programmed versus Nonprogrammed Decisions
Structured situations with well defined relationships Quantifiable Management information system Easy to computerize Nonprogrammed decisions Rules and relationships not defined Problem is not routine Not easily quantifiable When selecting an alternative in the choice stage, various factors affect the decision. We saw in the airport transportation example that resource constraints, such as time, money, or availability, are factors. Another factor is whether the decision can be programmed. Programmed decisions are made by following rules, procedures or quantitative methods that can be described in advance and regularly used, since the situations are recurring and well-structured. Management information systems are designed to provide information to address programmed decisions. Many simple programmed decisions can be completely automated – for example, inventory control systems can be programmed with reorder points and automatically trigger an order for more merchandise when the reorder point is reached. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Problem Solving Approaches
Optimization: find the best solution Satisficing: find a good solution Heuristics: rules of thumb Computerized decision support systems can usually be used for both optimization and satisficing modeling. An optimization model finds the best solution in relation to the constraints, assumptions, and goals it was given. For example, an optimization model can find the optimal labor cost to produce a particular product and meet a specific level of profit, subject to the cost of raw materials and machinery. Profit level is a goal and costs are a constraint in the model. A satisficing model finds a good, but not necessarily the best, solution. Satisficing is used when optimization is too difficult, costly, or complex. Satisficing looks only at solutions that are likely to produce a good solution and can thus be done more easily and quickly than optimization, which involves an exhaustive search of all possible solutions. Heuristics, or rules of thumb, are often used in decision making. Heuristics are generally accepted guidelines, or guidelines developed through experience, that usually find a good solution. For example, you might follow a heuristic of taking an umbrella if it is cloudy, windy, and humid when you leave the house. Your experience has shown you that generally this results in having an umbrella when it rains. However, this isn’t an optimal solution – since sometimes you carry an umbrella unnecessarily and sometimes it rains on days when you don’t have an umbrella. But the cost of finding an optimal solution is far too great in terms of time and money. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Optimization, Satisficing, and Heuristic Approaches

An Overview of Management Information Systems
Management information systems provides decision-makers information and feedback on daily operations. Additionally, management information systems can be used strategically, often incorporating Web technology. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan
Inputs to an MIS MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Outputs of an MIS MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Developing Effective Reports

Characteristics of an MIS
Fixed format, standard reports Hard-copy or soft-copy reports Uses internal data User-developed reports Users must request formal reports from IS department As mentioned earlier, all reports from an MIS have been predetermined – that is, management information systems do not generally produce ad hoc reports, or unique reports done only once. Most recipients get the same report, although they may use it for different purposes. Output from an MIS may be printed, or hard-copy, or viewed on a screen, called soft-copy. Most output from an MIS is hard copy. The primary source of input data for an MIS is internal data stored in internal databases, generally data collected and maintained by a transaction processing system. Sometimes data from external databases is added, such as general economic data or data about competitors’ actions. Since an MIS create an application database, end users can request their own simple reports to access the information stored in it. However, if many users develop the same report, it may be more efficient for the IS department to produce it. More complex reports are generally requested from the IS department and developed by specialists. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Functional Aspects of the MIS
Each management information system is an integrated collection of subsystems, often organized along functional lines of an organization. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Functional Aspects of an MIS

Financial MIS MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Manufacturing MIS Design engineering Process control Computer-assisted manufacturing (CAM) Computer-integrated manufacturing (CIM) Flexible manufacturing system Quality control and testing Inventory control programs are one component of a manufacturing MIS that relies on the production schedule. Inventory control programs can forecast future production, automatically reorder items when a certain threshold is met, determine manufacturing costs, and develop resource requirements plans from the production schedule. Manufacturing Requirements Planning (MRP) programs help coordinate thousands of inventory items when demand for one item depends on demand for another. MRP systems determine when finished products are needed, then work backward to determine deadlines and resources needed to complete the final product on schedule. When high inventory levels are kept, a company’s money is tied up in unused inventory. This means higher costs for the company. A Just-in-time (JIT) inventory approach ensures inventory and materials are delivered only when they are needed. This maintains inventories at their lowest possible level, but insures materials are on-hand in time for production. Although JIT is beneficial, it also makes a business vulnerable to supply chain disruptions – whether internal or external. For example, if a machine breaks down that makes a component another unit needs to assemble the product, assembly may need to stop due to lack on components. Technologies have been developed to control and streamline the manufacturing process. Computers can directly control manufacturing equipment using computer-assisted manufacturing software. Computer-integrated manufacturing software connects all aspects of production together, including order processing, product design, manufacturing, quality control, and shipping. For example, after an engineer designs a product using CAD software, MRP systems can use information from the design as input to plan and order materials. Production scheduling systems can use the design specifications as an input into the scheduling process. And computer-added manufacturing systems can use the design specifications as input for setup. This greatly improves manufacturing efficiency. A flexible manufacturing system allows a facility to quickly and efficiently change from making one product to making another, often using robotics and other automation. Generally the changeover is computer-controlled. Finally, quality control has become paramount for manufacturing firms. Control charts or sample testing is used to monitor product quality. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Overview of a Manufacturing MIS

Master Production Scheduling and Inventory Control

Quality Control and Testing

Marketing MIS MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Product Pricing MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Human Resource MIS MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Other MIS Accounting management information systems Geographic information systems (GIS) There are many other kinds of management information systems used in organizations, including accounting MISs and geographic information systems. While an organization’s transaction processing system captures accounting data, the accounting MIS provides summary information on various aspects of the accounting system, such as accounts payable or accounts receivable. A geographic information system can collect, store, manipulate and display geographic information. In a geographic information system, data are displayed according to their locations. Has a sales clerk ever asked you for your zip code as you pay for a product? When a retail store or restaurant chain is considering opening a new location, they may use a geographic information system to determine where their potential customers are located. By displaying a map, with zip codes color coded to show the number of customers traveling to the current store location, a business can place the new store close to the area where most of them live. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Characteristics of Decision Support Systems
Handle large amounts of data from various sources Provide report and presentation flexibility Offer both textual and graphical orientation Support drill down analysis Not all decision support systems, or DSSs, are alike – some are very small in scope, with only a few of the following attributes; others are comprehensive and powerful. A DSS can analyze information stored in a data warehouse or a database that is distributed across multiple locations. External sources of data, such as those available via the Internet,can also be incorporated into a decision model. Users can see their output in an appropriate format – whether that is a chart, image, table or even map – on a printout or on the screen. In some systems, managers can also drilldown to more detailed data. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

An Overview of Decision Support Systems
Decisions support systems are people, procedures, software, databases, and devices that are used in problem-specific decision-making and problem-solving. Decision support systems are particularly useful when dealing with semi-structured, poorly structured, or unstructured situations. Although decision support systems are used most often at higher levels of management, all employees may use them to assist in even programmable decisions. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Characteristics of a DSS
Perform complex, sophisticated analysis Optimization, satisficing, heuristics Simulation What-if analysis Goal-seeking analysis Many of a DSS’s analytical programs are standalone programs, integrated by the DSS. Decision support systems often support all types of decision-making approaches to allow the user great flexibility. For example, even simple spreadsheets support “what-if analysis”, which allows the user to make changes to input variables to see the result on outcomes. For example, if you can increase production either by adding a new machine or upgrading different combinations of existing machines, you can change the appropriate costs and capacities on a spreadsheet and see which increases output the most and/or costs the least. Simulation allows a user to model a problem by duplicating features of a real system. This generally involves some uncertainty or probability. For instance, perhaps we can increase production by either adding a new machine or by adding additional employees to set up and reconfigure existing machines between production runs. A simulation would model the complex interaction of all these variables, based on estimates of how long it takes one person to reconfigure a machine and how additional people change the time, production time of one machine, and so on. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Characteristics of a DSS

Capabilities of a DSS Support all problem-solving phases Support different decision frequencies Support different problem structures Support various decision-making levels Although a specific DSS might only support one or a few phases, decision support systems can support decision makers in all the phases of the problem-solving process – that is, in the intelligence, design, choice, implementation, and monitoring stages. As we’ve seen in this chapter, decisions can range from one-of-a kind to recurring. An ad hoc DSS is useful for one-of-a kind or less structured decisions, while an institutional DSS handles situations that happen on an ongoing basis. Institutional DSSs are refined over time. For instance, deciding where to locate a regional airport is likely a one of a kind decision, whereas investment decisions are recurring. Thus, a DSS can support decisions ranging from unstructured to structured. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Selected DSS Applications

Support for Various Decision-Making Levels

Comparison of DSSs and MISs

Components of a DSS Decision support systems are composed of several interrelated parts. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Components of a DSS MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

The Model Base Financial models Cash flow Internal rate of return Statistical analysis models Summary statistics Trend projections Hypothesis testing Graphical models Project management models Decision makers use a DSS to model problems or situations in various ways. For instance, financial models can show the relationship among variable in investment analysis. The model base gives DSS users access to a variety of built-in models they can use, so users don’t need to write lengthy programs to create their own models. Often, model management software coordinates the use of models in a DSS. For example, consider the examples of financial models listed on the slide. Rather than a decision-maker trying to remember how to calculate the internal rate of return for an investment and then figure out how to enter commands for the DSS to perform the calculations, it is far more efficient to use the built in internal rate of return model. Although some businesses create complex financial models unique to their situation, DSS software contains powerful financial models. Statistical models perform many tasks, including summary statistics, trends, and hypothesis testing. Although there are powerful software packages dedicated to statistical modeling, such as SPSS and SAS, today’s spreadsheets contain a large set of statistical analysis models. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

The Model Base MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Data-driven versus Model-driven DSS
Data-driven DSS - primarily performs qualitative analysis based on the company’s databases Model-driven DSS - primarily performs mathematical or quantitative analysis MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Group Decision Support Systems
Although decision support systems help individuals make better decisions, many business decisions are made by groups. Higher level managers often spend more than half their decision-making time in meetings. Group decision support systems, also called group support systems or computerized collaborative work systems, are designed to support group decision making. Some types of GDSS software, called groupware or workgroup software, help with group scheduling, communications, and management. Lotus Notes and Microsoft Exchange are examples of such software. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Group Decision Support System

Characteristics of a GDSS
Special design Ease of use Flexibility Decision-making support Anonymous input Reduction of negative group behavior Parallel communication Automated record keeping GDSSs are designed to support effective group communication and good decision making techniques, as well as creative thinking. As a general rule, any software that is hard to use, won’t be used. GDSS software must be especially user friendly, since often groups have less patience with bad software than do individuals. Since different people may solve the same problem in different ways, a GDSS should support different approaches to decision-making, as well as integrate their output into a common view. A GDSS supports group decision-making techniques, such as the Delphi approach, brainstorming, group consensus, and the nominal group technique. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

GDSS Alternatives MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

The Decision Room MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Executive Support Systems
Executive support systems, or executive information systems, were developed to provide senior managers the type of information they need, in the format that they need it. Executive support systems include a DSS, as well as other tools, such as office automation. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Executive Support Systems

Executive Support Systems (ESS) in Perspective
Tailored to individual executives Easy to use Drill down capabilities Support need for external data Can help when uncertainty is high Future-oriented Linked to value-added processes Although executive support systems have much in common with decision support systems, they have important differences. Generally, a DSS provides a number of modeling tools and is designed to help a user answer a question. Executive support systems allow executives to ask the right questions. An ESS is interactive and helps an executive focus, filter and organize data and information. Unlike a DSS, an ESS is usually customized for a specific individual. Content and format can both be customized. Since executives are typically busy, an ESS must be easy to learn and to use – or it won’t be used. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Capabilities of an ESS Support for defining an overall vision Support for strategic planning Support for strategic organizing & staffing Support for strategic control Support for crisis management Most executive support systems are designed to give the user a top-down view of business processes and allow him to drill down to greater levels of detail. This capability, as well as access to external databases and to DSS modeling tools, allows top-level managers to work on long term, strategic issues that affect the whole company. MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Summary Management information system - an integrated collection of people, procedures, databases, and devices that provide managers and decision-makers with information to help achieve organizational goals Decision-making phase: includes intelligence, design, and choice Problem solving: also includes implementation and monitoring Decision approaches: optimization, satisficing, and heuristic MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Summary Decision support system (DSS) - an organized collection of people, procedures, software, databases, and devices working to support managerial decision making Group decision support system (GDSS) - also called a computerized collaborative work system, consists of most of the elements in a DSS, plus software needed to provide effective support in group decision-making settings Executive support systems (ESSs) - specialized decision support systems designed to meet the needs of senior management MSIS 110: Introduction to Computers; Instructor: S. Mathiyalakan

Information and Decision Support Systems

Similar presentations

Presentation on theme: "Information and Decision Support Systems"— Presentation transcript:

Similar presentations

About project

Feedback

Log in

Auth with social network:

Information and Decision Support Systems

Similar presentations

Presentation on theme: "Information and Decision Support Systems"— Presentation transcript:

Similar presentations

About project

Feedback