Copyright, 1995-2002 1 Invitation to Research SYSTEMS THINKING Roger Clarke, Xamax Consultancy, Canberra Visiting Professor, CSIS, Uni of Hong Kong Visiting.

Slides:

Advertisements

Similar presentations

Copyright, IP Business Models for the TAFE Sector Roger Clarke Chair, AEShareNet Limited Xamax Consultancy, Canberra & Visiting Professor at.

Advertisements

Copyright Roger Clarke Xamax Consultancy, Canberra Visiting Professor – Cyberspace Law & Policy UNSW and at the ANU and the Uni. of.

Copyright, Issues from Internet Technologies 3 – Internet Governance Roger Clarke, Xamax Consultancy, Canberra Visiting Prof/Fellow, Unis of.

Internet Architecture and Operation: 'Supra-National' Rather Than 'International' Governance Roger Clarke, Xamax Consultancy, Canberra

Copyright, Invitation to Research RESEARCH CONCEPTS & TERMINOLOGY Roger Clarke, Xamax Consultancy, Canberra Visiting Professor, CSIS, Uni of.

Copyright, Invitation to Research THE RESEARCH PROCESS Roger Clarke, Xamax Consultancy, Canberra Visiting Professor, CSIS, Uni of Hong Kong.

Copyright Roger Clarke Xamax Consultancy, Canberra Visiting Professor in Cyberspace Law & Policy, UNSW and in Computer Science, ANU Chair, Australian.

Copyright Xamax Consultancy Pty Ltd, Canberra Visiting Professor, Uni. of Hong Kong, A.N.U. & U.N.S.W.

Copyright, Invitation to Research RESEARCH TECHNIQUES at the SCIENTIFIC/ INTERPRETIVIST BOUNDARY Roger Clarke, Xamax Consultancy, Canberra.

Copyright, Invitation to Research INTERPRETIVIST RESEARCH TECHNIQUES Roger Clarke, Xamax Consultancy, Canberra Visiting Professor, CSIS, Uni.

Copyright, The Malware Menagerie Roger Clarke, Xamax Consultancy, Canberra Visiting Professor in Cyberspace Law & Policy at U.N.S.W., eCommerce.

Copyright, Invitation to Research SCIENTIFIC RESEARCH TECHNIQUES Roger Clarke, Xamax Consultancy, Canberra Visiting Professor, CSIS, Uni of.

Copyright, Invitation to Research CASE STUDY: eBusiness Research Roger Clarke, Xamax Consultancy, Canberra Visiting Professor, CSIS, Uni of.

Copyright, Invitation to Research NON-EMPIRICAL RESEARCH TECHNIQUES Roger Clarke, Xamax Consultancy, Canberra Visiting Professor, CSIS, Uni.

Copyright, Invitation to Research RESEARCH ETHICS Roger Clarke, Xamax Consultancy, Canberra Visiting Professor, CSIS, Uni of Hong Kong Visiting.

Copyright, INVITATION TO RESEARCH INTRODUCTION Roger Clarke, Xamax Consultancy, Canberra Visiting Professor, Uni of Hong Kong Visiting Fellow,

Copyright, Invitation to Research ALTERNATIVES TO SCIENCE Roger Clarke, Xamax Consultancy, Canberra Visiting Professor, CSIS, Uni of Hong Kong.

Copyright, Invitation to Research ENGINEERING RESEARCH TECHNIQUES Roger Clarke, Xamax Consultancy, Canberra Visiting Professor, CSIS, Uni of.

Copyright, Invitation to Research THE RESEARCH PRODUCT Roger Clarke, Xamax Consultancy, Canberra Visiting Professor, CSIS, Uni of Hong Kong.

Copyright, Invitation to Research RESEARCH TECHNIQUES – CHALLENGES Roger Clarke, Xamax Consultancy, Canberra Visiting Professor, CSIS, Uni.

Copyright Digital Privacy Roger Clarke, Xamax Consultancy, Canberra Board Member, Australian Privacy Foundation Visiting Professor, Unis. of.

Copyright, Issues from Internet Technologies 2 – Apps for Collaboration & Subversion Roger Clarke, Xamax Consultancy, Canberra Visiting Prof/Fellow,

Copyright, Issues from Internet Technologies 5 – From Data to Meaning? to Knowledge?? Roger Clarke, Xamax Consultancy, Canberra Visiting Prof/Fellow,

Copyright, Issues from Internet Technologies 4 – Counter-Attacks by the Powerful Roger Clarke, Xamax Consultancy, Canberra Visiting Prof/Fellow,

Internet-Induced Constraints on Freedoms: The Implications for Innovation Roger Clarke, Xamax Consultancy, Canberra Visiting Fellow, Dept of Computer Science,

Copyright How Academe and Business Can Connect Roger Clarke Xamax Consultancy Pty Ltd, Canberra Visiting Professor in eCommerce, Uni. of Hong Kong;

Copyright, Invitation to Research RESEARCH TECHNIQUES – OVERVIEW Roger Clarke, Xamax Consultancy, Canberra Visiting Professor, CSIS, Uni of.

Copyright, Invitation to Research THE SCIENTIFIC APPROACH Roger Clarke, Xamax Consultancy, Canberra Visiting Professor, CSIS, Uni of Hong Kong.

Copyright Paper Reviewing Roger Clarke Xamax Consultancy Pty Ltd, Canberra Visiting Professor, Uni. of Hong Kong, U.N.S.W., A.N.U.

Introduction to Management Science, Modeling, and Excel Spreadsheets

© Loughborough University, 2004 Types of Systems There are a number of ways in which we may define types of systems.

It is 2 o C The temperature drops by 3 degrees What temperature is it now? -1 o C.

1.1.5 Explain the nature of equilibrium. What is equilibrium? the average condition of a system in balance over a specific period of time Your syllabus.

Modeling of Complex Social Systems MATH 800 Fall 2011.

Control systems Objectives: What is a feedback diagram and how do I draw one? What is negative feedback? What are antagonistic effectors?

IEOR 4004: Introduction to Operations Research Deterministic Models January 22, 2014.

Control of the Internal Environment

Analysing Systems Failures (1) Main Principles: systems thinking.

Applying Systems Theory to Organizations and Families CSD 5970 Bruce Barnard.

Artificial Neurons, Neural Networks and Architectures

OBJECTIVE OF TODAY’S LECTURE

© 2007 McGraw-Hill Higher Education. All rights reserved. Chapter 2 Control of the Internal Environment EXERCISE PHYSIOLOGY Theory and Application to Fitness.

Systems Theory and Modelling. © David O’Sullivan, NUI Galway Seminars Introduction Defining Innovation Innovation Process Understanding Goals Defining.

INTRODUCTION TO INFORMATION TECHNOLOGY

Introducing Climate Prediction Find out what happens to radiation from the Sun when it reaches the Earth and what this means for the temperature of the.

Scott K. Powers Edward T. Howley Theory and Application to Fitness and Performance SEVENTH EDITION Chapter Copyright ©2009 The McGraw-Hill Companies, Inc.

Copyright © 2009 Pearson Education, Inc., publishing as Benjamin Cummings Necessary Life Functions  Maintain boundaries  Movement  Locomotion  Movement.

Lessons Learned from 20 Years of Chaos and Complexity J. C. Sprott Department of Physics University of Wisconsin - Madison Presented to the Society for.

Modeling & Simulation: An Introduction Some slides in this presentation have been copyrighted to Dr. Amr Elmougy.

Introduction to Neural Networks. Neural Networks in the Brain Human brain “computes” in an entirely different way from conventional digital computers.

The Concepts of a System System: is any collection of interacting elements that operate to achieve some goal. Production Control Dept. Fabrication Dept.

CHARACTERISTICS OF LIFE BIOLOGY: the study of life.

Feedback Loops Positive and Negative Feedback Loop Examples.

Maintaining Life!! Organ systems don’t work in isolation; they work cooperatively to promote the well-being of the entire body. Characteristics of living.

Topics Covered:  System System  Sub system Sub system  Characteristics of System Characteristics of System  Elements of Systems Elements of Systems.

Csci 418/618 Simulation Models Dr. Ken Nygard, IACC 262B

A field of study that encompasses computational techniques for performing tasks that require intelligence when performed by humans. Simulation of human.

Object and Class Structuring Chapter 9 Part of Analysis Modeling Designing Concurrent, Distributed, and Real-Time Applications with UML Hassan Gomaa (2001)

1 MIS 444 Information Resource Management Ahituv, Neumann, & Riley Ch. 4: The Systems Approach.

Chapter 40 Basic Principles of Animal Form and Function.

Traffic Simulation L2 – Introduction to simulation Ing. Ondřej Přibyl, Ph.D.

Introduction to Information Systems 1.2 Systems Theory.

DSS & Warehousing Systems

The Human Body: An Orientation

Chapter 2 Control of the Internal Environment

SYSTEMS THEORY Provides a general analytical framework (perspective) for viewing an organization.

Organisations and systems (Chapter 2)

Homeostasis What is homeostasis?

Invitation to Research SYSTEMS THINKING Roger Clarke, Xamax Consultancy, Canberra Visiting Professor, CSIS, Uni of Hong Kong Visiting Fellow, Australian.

Invitation to Research SYSTEMS THINKING Roger Clarke, Xamax Consultancy, Canberra Visiting Professor, CSIS, Uni of Hong Kong Visiting Fellow, Australian.

Presentation transcript:

Copyright, Invitation to Research SYSTEMS THINKING Roger Clarke, Xamax Consultancy, Canberra Visiting Professor, CSIS, Uni of Hong Kong Visiting Fellow, Australian National University /15-Sys.ppt ebs, January 2003

Copyright, Agenda Systems Models Cybernetics Complexity of: System Model Behaviour

Copyright, A System A set of interacting Real-World Entities Interacts with its Environment across its Boundary Entities within a System: gather inputs via Sensors transmit outputs via Effectors interact with one another via Interfaces Systems may: exist at the same level (e.g. an mammals cardio-vascular and digestive systems) be related hierarchically (e.g. corpuscles within blood within the cardio-vascular system)

Copyright, System Characteristics Degree of Closedness/Openness to external Stimuli or Triggers Entropy The tendency to lose energy and order Negentropy The importation of energy to sustain order Unguidedness cf. Purposiveness Adaptiveness/Learning The ability to change as a result of stimuli

Copyright, A Model An Abstract-World Representation of a Real-World System Iconic or Symbolic/Mathematical Capable of being: viewed (e.g. a map manipulated (e.g. a model aircraft in a wind-tunnel) in ways that the System cannot be Necessarily (greatly) simplified The only reliable model of a real-world system is the system itself (Pratchett)

Copyright, Categories of Models Deterministic Models – Automata Computable by Analytical Methods Too Complex to Compute, hence Requiring Numerical Methods Probabilistic Models Non-Deterministic / Stochastic Models Entities exercising Self-Determination / Free Will e.g. Humans and Organisations

Copyright, Simple Process Model

Copyright, Process Model with Controller

Copyright, Cybernetics Control Loop: Inputs or Process Parameters changed as a result of measurement of Outputs Feedback: Positive / Reinforcing or Negative / Retardent Static Equilibrium / Steady-State cf. Dynamic Equilibrium / Homeostasis Delays, Control Limits, Tolerances => Hunting / Hysteresis, Over-Correction Feedforward Tiered Control Loops exhibit Complex Behaviour

Copyright, Levels of Discourse About Systems (Boulding) FrameworkAnatomy Balanced DynamicClockwork 1st-Order ControlThermostat Open, Self-MaintainingCell (in Biology) Genetic-SocietalPlant Self-Aware, PurposiveAnimal (& Orgn?) Self-ConsciousHuman...