150 likes | 252 Views
Ch1. Information Systems. Introduction and Concepts. Information systems have become the backbone of all kinds of organizations today. manufacturing, education, health care, government, and all businesses large and small ex)travel agency, tracking inventory, family doctor
E N D
Ch1. Information Systems Introduction and Concepts
Information systems have become the backbone of all kinds of organizations today. • manufacturing, education, health care, government, and all businesses large and small ex)travel agency, tracking inventory, family doctor - You are expected to do... 1. Introduction
Information • To communicate from one agent to another • knowledge or beliefs of agents • To (data) objects that represent knowledge /beliefs • An IS is an artifact for efficiently managing information items 2. Information Systems
There exist many views to define what is different between Information Systems and Information Technology. • The classic view is to consider an information system as a system to manage information. • In this book, we accept the fact that the term “information system” may refer to only the computerized part of an organization but that it may also refer to the entire organization using information technology to support business processes.
The main focus of this course is on organizational information systems. • Six elements • Customers • Products & Services • Business Process • Participants • Information • Technology 3. Types of Information Systems
Some representative IT applications list a. Enterprise Resource Planning(ERP) Systems b. Procurement Systems c. Manufacturing Systems d. Sales and Marketing Systems e. Delivery Systems f. Finance Systems g. Product design System h. Workflow Management Systems i. Data warehouses
We can differentiate development processes by how they areworking • ex) SAP; • Variety of life-cycle models - Life-cycle model focusing on management perspective • Initiation • Development • Implementation • Operation and maintenance 4. The different phases of the development Process
The waterfall and spiral models are two classical life-model. • Developing models is an essential part of the analysis and the design phase. • A model describes the product to be designed in a certain form. • Only the purpose of the model is important. • In general, models can be abstract descriptions or specifications.
Analysis Phase • Design Phase • Functional design model • Construction model • Implementation Phase • Further Life-cycle Phases - Production Phase, Distribution Phase, Deployment Phase, Maintenance Phase • Final Remarks
Discrete dynamic systems • Dynamic Systems; a state that is subject to change • Discrete Systems; Systems that change their state in discrete jumps • State and State Space • State; all things that may change and whose change is relevant for the system should be represented. • State Space; the set of all possible states • Ex) S={1,2,3,4,5} S={(1,0),(1,1),(1,2)…} 5. System Concepts
Transitions and Transition Systems • Transition; A transition is an ordered pair (x, y) where x and y are elements of the state space S, that is, x, y∈S • If there are only some of elements, we can draw the state-transition diagrams as a graph • Process Paths and the Behavior of a System • We need to consider more complicated processes rather than a single one. • Which states can be reached from a given initial state of the system? • The initial state of a system is the state in which a system starts its operations. • A reachable state is a state which the system can reach after zero or more transitions.
The set of all possible process paths from a given initial state is called the behavior of the system • In the behavior of a transition system two special cases are possible. a. A situation where no further transition can be made. b. The situation where from every state at most one transitions is possible • The design Perspective and the Simulation Perspective • The design perspective may be adopted to model an artificial system to be developed • The simulation perspective may be adopted to model and simulate natural system
We have seen both small and large state spaces. • Several other kinds of models for discrete dynamic systems have been proposed. • S(state space) represents the statiscalaspects of the system and a transition relation TR with. • Modeling methods for IS have two components that information model and process model • Information model + Process model =System model which is the counterpart of the state space. 6. Preview