Systems Intelligence� (SI)�: Systems Intelligence (SI) Esa Saarinen and
Raimo P. Hämäläinen
Helsinki University of Technology
Systems Analysis Laboratory
esa@hut.fi
raimo@hut.fi
www.systemsintelligence.hut.fi
Topics for Discussion �Could it be that ...: Topics for Discussion Could it be that ...
SI is a hidden/ignored innate capacity in all of us
SI is an iconic concept stimulating thinking and action
Becomes a personal learning challenge
Is an essential prerequisite for future leadership
An asset in personal and organizational life
Can be a wisdom when negotiating and resolving complex global conflicts and environmental problems
Can be introduced and trained in schools
SI manifests itself in many ways in our everyday life
Definition of Systems Intelligence: Definition of Systems Intelligence
Intelligent behaviour in the context of complex systems involving interaction,dynamics and feedback
A subject acting with Systems Intelligence engages successfully and productively with the holistic feedback mechanisms of her environment
She perceives herself as part of a whole, the influence of the whole upon herself as well as her own influence upon the whole
By observing her own interdependence in the feedback intensive environment, she is able to act intelligently
Systems Intelligence: Systems Intelligence Combines human sensitivities with engineering thinking with the idea of making things work
Systems Intelligence is a mirror that helps to identify productive forms of action one already follows intuitively
Our conviction is that Systems Intelligence is a key form of human intelligence
A fundamental element in the adaptive human toolbox
It is a competence that can be improved by learning
The Fifth Discipline (Senge 1990)�: The Fifth Discipline (Senge 1990) Cornerstones of learning organizations:
Personal Mastery
Mental Models
Shared Vision
Team Learning
Systems Thinking
Systems Intelligence is the fundamental link between
Personal Mastery and Systems Thinking.
Multiple Intelligences �(Howard Gardner 1983): Multiple Intelligences (Howard Gardner 1983)
Linguistic Intelligence
Musical Intelligence
Logical-Mathematical Intelligence
Spatial Intelligence
Bodily-Kinesthetic Intelligence
The Personal Intelligences – intra / inter
Gardner: These do not yet explain higher-level cognitive capacities e.g. common sense, metaphorical capacity or wisdom
SI and Multiple Intelligences�: SI and Multiple Intelligences
SI points beyond the forms of intelligence of Gardner (Multiple Intelligences), Goleman and others (Emotional Intelligence, Social Intelligence)
Links intelligence with the concept of system
Systems Intelligence is another important higher level human cognitive capacity
Inspiration from the work of Peter Senge (1990)
Systems Intelligence is a survival asset we have as a species
Systems Intelligence links with…: Systems Intelligence links with… Systems Thinking (Churchman 1968, Senge 1990, Oshry 1996, Checkland 1999, Flood 1999, )
Organizational theories and learning, Action research, Philosophical Practice and Dialogue (Argylis&Schön , Schein ,Bohm 1980, Isaacs 1999,)
Socratic tradition in philosophy which emphasises conceptual thinking for the purposes of the good life (Hadot 1987, Long 2002)
Therapeutic thinking, positive psychology and situation analysis (Bateson 2000, Goffman 1974, Seligman 2002)
Theories of Decision Making and Problem Solving (Simon 1956, Keeney 1992, Kahneman, Tversky 2000)
Systems Thinking� - the common understanding: Systems Thinking - the common understanding
Observes interdependencies and wholes
Views matters from different perspectives
Especially through the eyes of others
Becomes Systems Intelligence when a person takes active personal responsibility for her actions within the system
Systems Thinking �is only the first step: Systems Thinking is only the first step Emphasizes the importance of wholes and perspectives as it conceptualises and models systems of interaction and feedback from outside
Can become a trap when one only sees systems from outside and does not recognize herself being an active part of them
Systems Intelligence�Basic ideas – Structures: Systems Intelligence Basic ideas – Structures Structure produces behaviour
Beliefs regarding structures produce behaviour
Beliefs regarding the beliefs others have regarding structures, produce behaviour
Structures of co-operation are fundamentally based on the assumptions and meta-assumptions people make of others involved in that system of co-operation
Structures determine the patterns and dynamics of interaction
Systems can take over : Systems can take over People can get caught in systems (organizations) that serve nobody’s interest
There does not need to be an external reason for the particulars of a system
Yet people in the system can feel helpless regarding their possibilities of changing the system
In most systems, each subject separately reacts to the system without seeing the cumulative overall effect of the reactive behaviours on the others
From Systems Thinking ...: From Systems Thinking ... The environment and one’s place in it are perceived in terms of interconnectivity and interdependence
The systems perspective wants to see the world as composed of systems, to examine these entities as wholes
But also:
“Part” and “Whole” are relative abstractions
They are mental constructs, which are relative to the perspective adopted i.e. subject to redefinition
Boundaries of a system can always be redrawn
... to Systems Intelligence: ... to Systems Intelligence Unlike Systems Thinking (in its narrow meaning), Systems Intelligence is primarily outcome-oriented and not a descriptive effort only
Unlike Systems Thinking, Systems Intelligence involves driving change and actively embracing change
Becomes a challenge for personal learning
The theoretical understanding of Systems Thinking does not need to increase Systems Intelligence
Thinking about Thinking: Thinking about Thinking Systems Intelligence begins when a person starts to re-think her thinking regarding her environment and the feedback structures and other systems structures of that environment
Identifying one’s favoured framing patterns, challenging them and adjusting them accordingly
A Systems Intelligent person will acknowledge the limitations of her thinking and mental models particularly through challenging her own thinking
Seeing oneself in the system: Seeing oneself in the system The impact of one’s behaviours and interaction patterns upon the behaviours of others
The impact of other agents’ feedback on my behaviour
The impact of the current system on all of us is in the long run
The modes of conformity I have already adopted as a result of established practices
The modes of conformity the others have already adopted as a result of established practices
The desired ideal state I would like to reach with the others
SI Connects Engineering Thinking with Emotions : SI Connects Engineering Thinking with Emotions
From reactive behaviour into the intelligent management of situations, feelings and the whole
Human emotions are essential – they cannot be ignored – their systemic effects need to be taken into account intelligently
A systems engineering perspective to the systemic impacts of emotions
Simple acts of Systems Intelligence� in Everyday Life: Simple acts of Systems Intelligence in Everyday Life Appreciation
No judgements
Interest
Humor
Listening
Thanking
Encouragement
Friendliness
Managing the invisible: Managing the invisible In most human systems and organizations the true system often includes hidden subsystems such as fear and trust generation or belief formation
It is very easy to forget to use behavioural input variables controlling such invisible parts
To understand the system, it can be more important to know what is not produced than what the standard output is
A Systems Intelligent approach acknowledges and aims to identify and understand both the visible and invisible part of the system and find inputs to impact their behaviour in a positive way
Optimism for change: Optimism for change Systems Intelligence focuses on changes as leveraged by the human mental world and the systemic nature of life around us
Systems Intelligence acknowledges that beliefs influence actions and actions influence beliefs.
There might be a systematic flaw in the way a group of agents perceives the way others think and what they truly want
A relatively small change in my behaviour might trigger a chain of changes in the actual behaviours in each of us
Systems Intelligence Archetypes: Systems Intelligence Archetypes “Fixes that Fire” – triggering systemic change, resonance, bifurcation/chaos with positive long term impacts
“Sharing Away the Burden” – we have a dream, open source philosophy
“Miracle of the Commons” – evolution of co-operation through reciprocity
Systems Theory and �Systems Intelligence: Systems Theory and Systems Intelligence A system is defined by identifying the system inputs i.e. control, intervention, decision or stimulus variables and system output variables i.e. the observed responses or reactions
The state of a system consists of the variables representing the elements in the system which determine its future behaviour
Systems can have many different state representations
Complexity: Well known parts – unknown interactions
Complexity The interdependence of subsystems is unknown
Sometimes a minor intervention can trigger unexpected, chaotic or bifurcating responses in the system
The most essential part of the system may be one that was never intentionally built into it control /
intervention
output /
observation
Observability�: The observability of subsystems
Observability A system is observable if one can derive the values of all the states by a sufficiently long observation of the outputs
Without a sufficient set of observation (measurement) variables one can remain unaware of important active subsystems
You cannot manage systems which you do not see control/
intervention
output/
observation/
measurement
Controllability�: The controllability of subsystems
Controllability A system is controllable if it can be driven to any state value by sufficiently rich controls
In addition to the seemingly controllable visible system there can be an uncontrollable subsystem – human or technical
You must have a sufficient set of inputs to cause an impact on all the states control/
intervention
output/
observation
Systems Intelligence : SI looks for ways to observe and address the invisible subsystems and interactions of emotions and beliefs
Without the management of the whole the structure starts to produce uncontrollable behaviour – we have systems dictatorship Systems Intelligence control/
intervention
output/
observation
Seeing the previously invisible parts
Systems Intelligent intervention
Uncontrollability – �System Dictatorship: Uncontrollability – System Dictatorship The structure and limited input and observation variables can create a situation of uncontrollability – system dictatorship
Even if a system mainly consists of human agents the overall behaviour can be determined by the non-human elements and dynamic structures such as time delays and sequential communication patters (e.g. Beer Game, Senge 1990)
Systems Intelligence is aware of structures: even if all the agents try to do their best the resulting system response can be bad due to the structure
Systems Intelligent Organization:
Empowers people to share their mental system models of the organization and to consider the effects of their own actions on the whole
Fosters and sustains inquiry mode and reduces advocacy
Keeps fear factors down
Helps people to be responsive to flourishing initiatives
Builds trust in the good will of others
Sees that its production capacity is not restricted to the measurable variables but is extended to the world of emotions and well being
Elevates innovativeness by an environment where emotional variables do not limit performance
Systems Intelligent Organization
5 Levels of SI for self-evaluation and measurement of SI: Seeing oneself in the System – Ability to see oneself and ones roles and behaviour in the system. Also through the eyes of other people and with different framings of the system. Systems thinking awareness.
Thinking about Systems Intelligence – Ability to envision and identify productive ways of behaviour for oneself in the system and understanding systemic possibilities.
Managing Systems Intelligence – Ability to personally excercise productive ways of behaviour in the system.
Sustaining Systems Intelligence – Ability to continue and foster systems intelligent behaviour in the long run .
Leadership with Systems Intelligence – Ability to initiate and create systems intelligent organizations 5 Levels of SI for self-evaluation and measurement of SI
Systems Intelligent Leader: Strives to learn and reach Level 5
Sees himself in the system with a mission to develop a Systems Intelligent Organization
Is aware of the human perspective
Operates within the visible system and manages the emotional system simultaneously
Is not held captive by the mechanistic perspective
Identifies and eliminates structural systems dictatorships
Systems Intelligence has become an iconic personal growth challenge and a success asset
Systems Intelligent Leader
Ecological Systems Intelligence: Ecological Systems Intelligence Evolutionary processes exhibit a spontaneous emergence of co-operation generating superior overall behaviour for all the actors (Axelrod 1984, Gintis et al. 2003)
Human decision making does not follow the axioms of rationality assumed in economic theory.
Bounded rationality: choice behaviour strongly reflects the systemic decision environment
We can escape the Prisoner’s Dilemma: a deviation from local status quo is not possible by self-interested rationality
Can be interpreted as a manifestation of ecological Systems Intelligence?
Slide32: In experimental games :
People do not take everything for themselves.
They choose co-operative strategies reflecting Systems Intelligence. Games People Play
Esa Saarinen and Raimo P. Hämäläinen:�Systems Intelligence: Connecting Engineering Thinking with Human Sensitivity in: Systems Intelligence – Discovering a Hidden Competence in Human Action and Organizational Life, Raimo P. Hämäläinen and Esa Saarinen (Eds.), Helsinki University of Technology, Systems Analysis Laboratory Research Reports A88, October 2004�Downloadable at: www.systemsintelligence.hut.fi �Systems Intelligence Research Group�www.systemsintelligence.hut.fi/�Downloadable articles on SI:�www.systemsintelligence.tkk.fi/SI2004.html��Saarinen Esa,�www.sal.hut.fi/Personnel/Homepages/EsaS.html �www.esasaarinen.com/?kieli=en&etusivu��Hämäläinen Raimo P., �www.raimo.hut.fi�: Esa Saarinen and Raimo P. Hämäläinen: Systems Intelligence: Connecting Engineering Thinking with Human Sensitivity in: Systems Intelligence – Discovering a Hidden Competence in Human Action and Organizational Life, Raimo P. Hämäläinen and Esa Saarinen (Eds.), Helsinki University of Technology, Systems Analysis Laboratory Research Reports A88, October 2004 Downloadable at: www.systemsintelligence.hut.fi Systems Intelligence Research Group www.systemsintelligence.hut.fi/ Downloadable articles on SI: www.systemsintelligence.tkk.fi/SI2004.html Saarinen Esa, www.sal.hut.fi/Personnel/Homepages/EsaS.html www.esasaarinen.com/?kieli=en&etusivu Hämäläinen Raimo P., www.raimo.hut.fi About SI
References: References Axelrod Robert. 1984. The Evolution of Co-operation, London, Peguin Books
Bateson Gregory. 2000. Steps to an Ecology of Mind (Reprinted edition, original published in 1972) The University of Chicago Press
Bohm David. 1996. On Dialogue. London, Routledge
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Flood Robert L. 1999. Rethinking the Fifth Discipline: Learning Within the Unknowable, Routledge
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Gigerenzer Gerd and Selten Reinhard (editors). 2001. Bounded Rationality – The Adaptive Toolbox, Cambridge, The MIT Press
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Goffman Erving. 1986 (1974). Frame Analysis, Harper & Row
Goleman Daniel. 1995. Emotional Intelligence, New York, Bantam Books
Hadot Pierre. 2002 (French original 1995). What is Ancient Philosophy? Harvard University Press
Haley Jay. 1986. Uncommon Therapy, The Psychiatric Techniques of Milton H Erickson, M.D. W.W. Norton & Company Ltd
Hämäläinen Raimo P. and Saarinen Esa (Eds.). 2004b. Systems Intelligence - Discovering a Hidden Competence in Human Action and Organizational Life, Helsinki University of Technology, Systems Analysis Laboratory Research Reports, A88, October 2004
Isaacs William. 1999. Dialogue and the Art of Thinking Together, New York, Doubleday
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References: References Keeney Ralph L. 1992. Value-Focused Thinking: A Path to Creative Decisionmaking, Cambridge, Harvard University Press
Long A.A. 2002. A Stoic and Socratic Guide to Life, Oxford University Press
Oshry, Barry. Seeing Systems: Unlocking the Mysteries of Organizational Life. San Francisco: Berrett-Koehler Publishers, 1996
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Senge Peter. 1990. The Fifth Discipline: The Art and Practice of the Learning Organization, New York, Doubleday Currency
Senge Peter, Kleiner Art, Roberts Charlotte, Ross Richard B. and Smith Bryan J. 1994. The Fifth Discipline Fieldbook: Strategies and Tools for Building a Learning Organization, New York, Doubleday Currency
Simon Herbert A. 1956. Models of a Man: Social and Rational, New York, Wiley
Simon Herbert A. 1997. Models of Bounded Rationality, Volume 3, Empirically Grounded Economic Reason, Cambridge, The MIT Press.