Influence of a stressing constraint on stiffness and damping functions of a ski simulator's platform motion

The aim of this study was to assess the effect of stress on a previously acquired motor coordination. Following a longitudinal learning experiment, four participants performed oscillations on a ski simulator, either in normal or stressful conditions. The results showed that the amplitude of the oscillations decreased under stress, but no significant effect was seen regarding coordination, suggesting the strong resistance to stress of overlearned behaviour. Nevertheless, for one participant, a transient regression towards a former stage of learning was observed. This result was consistent with the regression hypothesis formulated by Fuchs (1962).

[1]  A. Beuter,et al.  Analysis of the Arousal/Motor Performance Relationship in Children Using Movement Kinematics , 1985 .

[2]  R. Yerkes,et al.  The relation of strength of stimulus to rapidity of habit‐formation , 1908 .

[3]  Peter J. Beek,et al.  Modeling rhythmic interlimb coordination: The roles of movement amplitude and time delays , 1999 .

[4]  Gerald J.S. Wilde,et al.  Risk homeostasis theory and traffic accidents: propositions, deductions and discussion of dissension in recent reactions , 1988 .

[5]  M. Humphreys,et al.  Personality, motivation, and performance: a theory of the relationship between individual differences and information processing. , 1984, Psychological review.

[6]  T D Lee,et al.  On the dynamics of motor learning research. , 1998, Research quarterly for exercise and sport.

[7]  D. Delignières,et al.  Effects of practice and task constraints on stiffness and friction functions in biological movements , 1999 .

[8]  A. Opstal Dynamic Patterns: The Self-Organization of Brain and Behavior , 1995 .

[9]  A H FUCHS The progression-regression hypotheses in perceptual-motor skill learning. , 1962, Journal of experimental psychology.

[10]  Takahiro Higuchi,et al.  Freezing degrees of freedom under stress: kinematic evidence of constrained movement strategies. , 2002, Human movement science.

[11]  Peter J. Beek,et al.  Tools for constructing dynamical models of rhythmic movement , 1988 .

[12]  Didier Delignières,et al.  On Discontinuities in Motor Learning: A Longitudinal Study of Complex Skill Acquisition on a Ski-Simulator , 2003, Journal of motor behavior.

[13]  Denis Mottet,et al.  The dynamics of goal-directed rhythmical aiming , 1999, Biological Cybernetics.

[14]  K. Newell Motor skill acquisition. , 1991, Annual review of psychology.

[15]  Peter J. Beek,et al.  Are frequency-induced transitions in rhythmic coordination mediated by a drop in amplitude? , 1998, Biological Cybernetics.

[16]  H. Haken,et al.  A theoretical model of phase transitions in human hand movements , 2004, Biological Cybernetics.

[17]  A W Gaillard,et al.  Comparing the concepts of mental load and stress. , 1993, Ergonomics.

[18]  Didier Delignières,et al.  Preferred coordination modes in the first steps of the learning of a complex gymnastics skill , 1998 .

[19]  A. Sanders Towards a model of stress and human performance. , 1983, Acta psychologica.

[20]  L. Hardy,et al.  Stress and cognitive functioning in sport. , 1989, Journal of sports sciences.

[21]  H. Huynh,et al.  Conditions under Which Mean Square Ratios in Repeated Measurements Designs Have Exact F-Distributions , 1970 .

[22]  P G Zanone,et al.  Evolution of behavioral attractors with learning: nonequilibrium phase transitions. , 1992, Journal of experimental psychology. Human perception and performance.

[23]  Garrett K. Mandeville,et al.  Validity conditions in repeated measures designs. , 1979 .