Download
1 / 11
130 likes | 192 Views
Explore the fundamentals of systems theory and learn how systems thinking can be beneficial in information systems and real-world scenarios. Discover essential system characteristics, such as components, boundaries, and environments, and grasp the importance of concepts like decomposition and modularity for system analysis and design.
E N D
Contemplative Questions • What is systems thinking? • Why do ‘systems thinkers’ get promoted? • How does the field of information systems benefit from concepts of systems theory? • How can we use these concepts in the real world?
Systems Thinking • System • A system is an interrelated set of business procedures used within one business unit working together for a purpose • A system has nine characteristics • A system exists within an environment • A boundary separates a system from its environment 2.3
Characteristics of a System • Components • Interrelated Components • Boundary • Purpose • Environment • Interfaces • Input • Output • Constraints On a sheet of paper, define each of these terms in your own words.
Systems ThinkingImportant System Concepts • Decomposition • The process of breaking down a system into smaller components • Allows the systems analyst to: • Break a system into small, manageable subsystems • Focus on one area at a time • Concentrate on component pertinent to one group of users • Build different components at independent times
Systems ThinkingImportant System Concepts • Modularity • Process of dividing a system into modules of a relatively uniform size • Modules simplify system design • Coupling • Subsystems that are dependent upon each other are coupled • Cohesion • Extent to which a subsystem performs a single function Which is better: More or less modularity? High or low coupling? High or low cohesion? Suppose you work as a systems analyst in a large organization. Your boss comes into your office and gives you a project requiring changes to another department’s system. Would you rather the existing systems have high or low coupling? high or low cohesion? more or less modularity?
Systems ThinkingImportant System Concepts • Logical vs. Physical Modeling • Logical System Description • Portrays the purpose and function of the system • Does not tie the description to a specific physical implementation • Physical System Description • Focuses on how the system will be materially constructed
Systems Thinking • Benefits • Identification of a system leads to abstraction • From abstraction you can think about essential characteristics of specific system • Abstraction allows analyst to gain insights into specific system, to question assumptions, provide documentation and manipulate the system without disrupting the real situation Example. Identify a system used by the university. Use the characteristics of systems in general to describe your system. What insight can you gain from this exercise?
Systems Thinking • Applying Systems Thinking to Information Systems • Information systems are subsystems in larger organizational systems • Data flow diagrams represent information systems as systems • Inputs • Outputs • System boundaries • Environment • Subsystems • Interrelationships 2.10
Decomposition Example Figures 8-4 and 8-5. What system characteristics are demonstrated in these pictures? What do the diagrams tell you? Which diagram is more useful?
