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Fundamental Concepts of Motor Development Developmental Systems Theories
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History maturation vs experience interaction Systems theory – influenced PT 1980’s
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Developmental Systems Theory
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Developmental System Any system that changes over time Developmental researchers are interested in change across months, years, decades… Therefore developmental systemtheory is attractive to motor development researchers
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How did we get here dynamical systems theory dynamical action theory neuronal group selection theory
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Dynamical System Any system that changes over time Specifically, an “open system” – One that exchanges energy with the environment Change in the system explained using principles of non-equilibrium thermodynamics
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Dynamical System – Non-Equilibrium Thermodynamics A system that through “open energy exchange” can move between steady states and has the capacity to create increasingly complex order
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Dynamic Systems Open Systems – free exchange of energy from the outside – living systems are “open”... exchanging food, air, etc. – information is also considered a form of “energy” think of a sensory receptor picking up energy from the environment) Closed Systems – limited exchange of energy from the outside – an atom is a relatively closed system – no system is completely closed
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Dynamic Systems Theory Thelen Used DST to offer “unconventional” explanation of disappearance of primitive walking - more about this later!
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Physical Principles Living organisms are subject to the laws of physics (thermodynamics) – Systems close to an equilibrium state return to equilibrium when perturbed – Open systems can exist in a state removed from equilibrium and given sufficient energy can reorganize into a new (or different) behavior
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Physical Principles – At critical points in the exchange of energy, the system becomes unstable, and a qualitatively new form of behavior emerges
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Equilibrium State Well understood example: – sitting balance – let’s try it!
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Physical Principles – Systems exhibit 1 of 2 possible phases A creative phase (a developmental phase) – when the system is unstable A stable phase – when the system maintains a specific form of behavior
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PT Perspective I’ve seen that stable kind of behavior How do I get the system to change? Control parameters Order parameters
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Learning DST Language Control Parameters and Order Parameters
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Control Parameters Control Parameters are like catalysts they precipitate change in motor behavior
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Control Parameter A factor that shifts behavior from one form to another. A control parameter must be scalar... allowing study of varying magnitudes of the variable A control parameter does not control the change in behavior but rather acts as a catalyst for reorganization of the behavior
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Disappearance of Early Stepping Newborns have the capacity to perform stepping movements when held erect – Maturational theory proposed: newborn stepping is a “primitive reflex” one that is present early in infancy and later disappears – Stepping reflex as a result of neural maturation – brain stem structures (tonic reflexes) begin to dominate behavior – positive supporting reactions
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Example of Developmental Control Parameter Thelen proposed: – ↑ weight of the limb the disappearance of stepping
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Test of Dynamic Systems Theory Put babies who had stopped stepping into a water bath (effectively reducing the relative weight of the limb through buoyancy) – Stepping reappeared! Back on dry land – Stepping disappeared!
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Control Parameter a variable that can be “scaled” to act as a catalyst to change behavior – hard to change the weight of the limb – but easier to strengthen the limb!
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Order Parameters – “simple” quantitative expressions that capture the complexity of movement coordination – Used to document changes in behavior
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Measuring the Complexity of Stepping Dynamical systems theory explains how complex movements change form – Walking to running, etc. How are complex patterns measured?
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Order Parameter A collective variable... a graphic or mathematical representation of complex movement that is a “simple” quantitative expression that captures the complexity of movement coordination
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An Order Parameter – The Phase Plane Plot Knee Joint Angle Hip Joint Angle 180 45 -10 85
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Order Parameters – “simple” quantitative expressions that capture the complexity of movement coordination – Used to document changes in behavior – Yeah, right… I am going to document the change using phase plane plots!
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Dynamical Systems Theory Researchers test theory using “Parameters” thus suggest “quantitative measures” of control and order variables – making it difficult for clinicians to document outcomes
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“simple” quantitative expressions that capture the complexity of movement coordination
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Parameters versus Variables Parameter – a factor that changes and the change can be measured quantitatively Variable – a factor that varies variation can be measured numerically (“quantitatively”) or…variation can be measured by description (“qualitatively”)
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Why I prefer Variables Variables can be manipulated in clinical practice – the level of measurement may not always be “quantitative” The theory still holds!
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Back to our Example Control parameter = weight of the limb Order variable = stepping (a complex behavior measured as present or absent!)
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Order Parameters Variables used to document a system’s behavior: – Determine effects of different factors on pattern stability – Discover variables that could precipitate pattern change – Scale the variable to test Dynamical Systems Theory
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Terminology: Constraint 3 types of factors shape or guide motor behavior – attributes of individuals – characteristics of the environment – the goal task
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Constraint – Attributes of individuals physical size flexibility strength cognitive capacity what else?
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Terminology: Constraint – Characteristics of the environment physical environment – size, location, stability of objects and surfaces social environment – support and motivation – audiences? what else?
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Terminology: Constraint – Task goal movement or posture speed or accuracy what else?
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BREAK!
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