Saturday, June 6, 2015

Demetriou, Spanoudis & Mouyi's model of intelligence



In this ambitious essay –

Demetriou, A., Spanoudis, G., & Mouyi, A. (2011). Educating the developing mind: Towards an overarching paradigm. Educational Psychology Review,23(4), 601-663.

the authors present a wide ranging model of intelligence. 

 The model is presented in detail in the first part of the essay.  It's implementation and implications for the educational system are presented in the second part of the essay.  In this post I'll present the first part of the essay.  I hope to present the second part in a future post.  The essay was favorably reviewed by Earl Hunt, one of the leading scholars of intelligence.  I hope to write about his review in another future post.

The model presents general intelligence, g, as consisting of four systems that interact during the performance of every cognitive task:

a.     Specialized structural systems – SSS.
b.    A representational capacity system.
c.    An inference system.
d.    A consciousness system.
                                         
The Specialized Structural Systems – SSS.

Each SSS deals with a different domain of interactions with the environment.  The authors argue that research indicates five such systems:

·         Categorical thought system – deals with relations of similarity and differences.  For example: creating hierarchies of concepts, and relations between concepts.
·         Quantitative thought system.
·         Causal thought system – deals with understanding cause and effect relations.
·         Spatial thought system – deals with spatial position, representation of the environment through mental imaging, and mental manipulations like mental rotation.
·         Social thought system - deals with social relations and social interactions.

Each SSS consists of innate core processes (subitizing, perceiving the quantity of small sets of objects, depth perception, preference for the perception of a human face are examples of innate processes in the quantitative, spatial and social systems, respectively), mental operations (classifying and emotional regulation are examples of mental operations in the categorization and the social systems, respectively), and knowledge and beliefs (the knowledge and beliefs we gather as a result of the interaction between the SSSs and the environment).  Each SSS contains its own specific logical processes for problem solving.
 
In CHC terms, each SSS includes relevant crystallized knowledge for the content and processes it deals with, along with fluid ability (specific relevant fluid processes for the area the SSS deals with).

Demetriou,   Spanoudis  & Mouyi present developmental milestones for each SSS.  I cannot get into that here, but this material is interesting and assists in finding the developmental stage  of the child we work with in each SSS.  This information can also assist  in the development of tests measuring each SSS.

The representational capacity system.

Our mental functioning occurs within the limits of our representational capacity system.  The representational capacity is the maximum quantity of information units, chunks (for example, mental images, words, numbers), and mental operations (for example mental rotation, executing grammar rules and arithmetic operations) that we can activate efficiently and simultaneously.  The representational capacity is our work space.  This is the mental field in which we act with information, analyze it, link it with other information, change it, interpret it, deduce conclusions from it and create plans for action and for problem solving with it.

In CHC terms, we are talking about short term memory.  This system is described in a very similar way to Baddeley's model of short term memory.  

Demetriou,   Spanoudis  &  Mouyi provide information about the development of the representational capacity system.  They suggest that between age 2 to 11, short term memory capacity develops from a capacity of one item to four.  At age 15-17, the capacity is 7 items.  The capacity depends on the task's complexity and the required executive processes, and on the kind of information we work with.  Training and experience help increase working memory capacity (expertise in a specific field enable us to form chunks containing more information).   Another interesting thing the authors write is that working memory is a system for holding pointers for schemas residing in long term memory.  Pointers in working memory can activate relevant schemas according to information reaching the SSSs.

The inference system.

This system deals with inductive, analogical and deductive reasoning.   In CHC terms this is fluid ability.  The authors present information about the development of the inference system.

The consciousness system.

This system deals with control and monitoring processes that make sure that we are aware of our goal, compare our present state with the goal state and suggest  actions for closing gaps between the present state and the goal state.  The consciousness system includes self regulation and inhibition.

These are essentially executive functions.

Not every cognitive activity reaches consciousness.  Consciousness is needed mainly when there is no automatically available schema for action in the situation we are at.

The input for the consciousness system is the information arising from the functioning of all other systems.  The consciousness system integrates the information from the other systems, and controls cognition and behavior. 

Consciousness is the locus of subjectivity and the self, since it unites past, present and future into one experiential stream.  Consciousness is the cause of our actions and the source of our attributions and explanations about the behavior of others.

Consciousness allows us to analyze the way we perform tasks and to represent this analysis for future use.
The consciousness system links cognition and personality.  It links the self appraisal of cognitive processes we perform and our attitudes about learning and problem solving (for example, being organized and systematic or adventurous and open to experiences).  Through consciousness, personality and emotion influence cognitive functioning.  We adopt a certain attitude towards our performance and our ability and apply this attitude consistently in every task we perform, and in social interactions.  This attitude is like a "self fulfilling prophecy", since we ascertain that the way we perform tasks is compatible with this attitude.  This attitude influences the choices the child makes and his stance towards learning. 

The authors write about the development of consciousness.  Interestingly, the ability to apply rules (for example, "if it's red it belongs here") is seen as a sign of consciousness, since rule application reflects the ability to plan actions.  The authors suggest, that self consciousness and executive control are parts of the learning process, and that learning efficiency changes and grows with the development of self consciousness and executive control.

I find this link between executive processes and consciousness fascinating.


g depends on the functioning of each of the four systems (the Specialized structural systems, the  representational capacity system, the inference system and the consciousness system) and on their interaction in real time.  g  depends on the extent to which the SSSs transfer their contents efficiently and precisely to the representational capacity system, on the extent to which executive control (the consciousness system) is precise and flexible until the goal is attained, on the extent to which the inference process is efficient when we reach a decision and on the extent to which the new mental representations we create for future use are precise.

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