On the effects of action on visual perception & How new movement types are learned

Perception can induce effects on action. Perception of others´ actions can thus influence our own actions. However, research on how action can shape perception is sparse. In this thesis, the effects of (i) motor learning and (ii) simple movements, can influence visual perception. Furthermore, the is...

Ausführliche Beschreibung

Gespeichert in:
1. Verfasser: Beets, Iseult Anna Maria
Beteiligte: Rösler, Frank (Prof. Dr.) (BetreuerIn (Doktorarbeit))
Format: Dissertation
Sprache:Englisch
Veröffentlicht: Philipps-Universität Marburg 2010
Psychologie
Schlagworte:
Online Zugang:PDF-Volltext
Tags: Tag hinzufügen
Keine Tags, Fügen Sie den ersten Tag hinzu!

1. Haken H, Kelso JA, Bunz H (1985) A theoretical model of phase transitions in human hand movements. Biol Cybern 51: 347-356


2. Slagter H.A., Johnstone T., Beets I.A.M. and Davidson R.J (2010). Neural competition for conscious representation across time: An fMRI study. PLoS ONE 5(5): e10556. doi:10.1371/journal.pone.0010556.


3. Mima T, Sadato N, Yazawa S, Hanakawa T, Fukuyama H, Yonekura Y, Shibasaki H (1999) Brain structures related to active and passive finger movements in man. Brain 122 ( Pt 10): 1989-1997


4. Lotze M, Braun C, Birbaumer N, Anders S, Cohen LG (2003) Motor learning elicited by voluntary drive. Brain 126: 866- 872


5. Gerardin E, Sirigu A, Lehericy S, Poline JB, Gaymard B, Marsault C, Agid Y, Le Bihan D (2000) Partially overlapping neural networks for real and imagined hand movements. Cereb Cortex 10: 1093-1104


6. Jeannerod M, Decety J (1995) Mental motor imagery: a window into the representational stages of action. Curr Opin Neurobiol 5: 727-732


7. Chokron S, Colliot P, Atzeni T, Bartolomeo P, Ohlmann T (2004) Active versus passive proprioceptive straight-ahead pointing in normal subjects. Brain Cogn 55: 290-294


8. 2009: Co-Betreuung des Trainings der EEG-Datenerhebung im Rahmen des Vertiefungsfaches " Kognitive Neurowissenschaften " , an der Universität Marburg.


9. Paillard J, Brouchon M (1968) Active and passive movements in the calibration of position sense. S.J. Freedman (ed), pp 37-55


10. Maslovat D, Lam MY, Brunke KM, Chua R, Franks IM (2009) Anchoring in a novel bimanual coordination pattern. Hum Mov Sci 28: 28-47


11. Wolpert DM, Ghahramani Z, Jordan MI (1995) An internal model for sensorimotor integration. Science 269: 1880-1882


12. Sommersemester 2009: Anleitung der Semesterarbeit " Bimanuale Koordination: Erlernen einer 90° Phasenverschiebung. " , an der Universität Marburg.


13. Paillard J, Brouchon M (1974) A proprioceptive contribution to the spatial encoding of position cues for ballistic movements. Brain Research 71: 273-284


14. Klaiman E, Karniel A (2006) Bimanual adaptation: internal representations of bimanual rhythmic movements. Exp Brain II. Experimental part________________________________________________________________ 100


15. Winter D.A. (1990) Biomechanics and motor control of human movement. Wiley-Interscience, Waterloo, Canada


16. Weiller C, Juptner M, Fellows S, Rijntjes M, Leonhardt G, Kiebel S, Muller S, Diener HC , Thilmann AF (1996) Brain representation of active and passive movements. Neuroimage 4: 105-110


17. Wintersemester 2009/2010: Co-Betreuung des Trainings der fMRI-Datenanalyse im Rahmen des Vertiefungsfaches " Kognitive Neurowissenschaften " , an der Universität Marburg.


18. Féry YA, Magnac R, Israel I (2004) Commanding the direction of passive whole-body rotations facilitates egocentric spatial updating. Cognition 91: B1-10


19. Zanone PG, Kelso JA (1997) Coordination dynamics of learning and transfer: collective and component levels. J Exp Psychol Hum Percept Perform 23: 1454-1480


20. Jul. 2007 – Jul. 2010: Doktorandin an der Philipps-Universität Marburg im Rahmen des Graduiertenkollegs NeuroAct. Angeleitet von Prof. Dr. Frank Rösler und Dr. Katja Fiehler.


21. März 2007: EEG-Demonstration für die Abteilung Organisatorische-und Arbeitspsychologie, Universität Leiden.


22. Beets, I.A.M., Fiehler, K., Rösler, F. (2008). Effects of motor learning on visual elliptic speed-pattern perception. Neurowissenschaftliche Nachwuchskonferenz, Ellwangen, Germany (Poster).


23. Beets, I.A.M., Slagter, H.A., Johnstone, T., Kelly, B, and Davidson, R.J. (2008). Effects of threat- evoked anxiety on attention and conscious perception. Tagung experimentell arbeitender Psychologen, Marburg, Germany (Poster).


24. Zanone PG, Kelso JA (1992) Evolution of behavioral attractors with learning: nonequilibrium phase transitions. J Exp Psychol Hum Percept Perform 18: 403-421


25. Ungerleider LG, Doyon J, Karni A (2002) Imaging brain plasticity during motor skill learning. Neurobiol Learn Mem 78: II. Experimental part________________________________________________________________ 101 553-564


26. Tutorin im Seminar " Inleiding in de Cognitieve-en Biopsychologie " , an der Universität Leiden.


27. Beets IAM, Rösler F, Fiehler K (in press) Non-visual motor training affects visual motion perception: Evidence from violating the two-thirds power law. J Neurophysiol


28. Hodges NJ, Franks IM (2002) Learning as a function of coordination bias: building upon pre-practice behaviours. Hum Mov Sci 21: 231-258


29. Voyer D, Voyer S, Bryden MP (1995) Magnitude of sex differences in spatial abilities: a meta-analysis and consideration of critical variables. Psychol Bull 117: 250-270


30. Otieno BS, Anderson-Cook CM (2006) Measures of preferred direction for environmental and ecological circular data. Environ Ecol Stat 13: 311-324


31. Nakata H, Inui K, Wasaka T, Nishihira Y, Kakigi R (2003) Mechanisms of differences in gating effects on short-and long- latency somatosensory evoked potentials relating to movement. Brain Topogr 15: 211-222


32. März 2008: Mitglied des Organisationsteams zur " 50. Tagung Experimentell arbeitender Psychologen " (TeaP), an der Universität Marburg.


33. Shadmehr R, Holcomb HH (1997) Neural correlates of motor memory consolidation. Science 277: 821-825


34. Beets, I.A.M., Rösler, F., & Fiehler, K. (2009). Non-visual motor learning enhances visual motion perception: Evidence from violating the two-thirds power law. Progress in Motor Control, Marseille, France (Poster).


35. Beets I.A.M., Rösler F. and Fiehler K. (accepted for publication). Non-visual motor learning improves visual motion perception: Evidence from violating the two-thirds power law. Journal of Neurophysiology Beets I.A.M.*, 't Hart B.M.*, Rösler F., Henriques D.Y.P., Einhäuser W. and Fiehler K. (under review). Online action-to-perception transfer: only percept-dependent action affects perception. *IAMB & BmtH contributed equally. Vision Research Beets I.A.M., Rösler F. and Fiehler K. (submitted for publication). Acquisition of a bimanual coordination skill after active and passively guided motor training. Experimental Brain Research Peer-reviewed Abstracts Slagter, H.A., Johnstone, T., Beets, I.A.M., & Davidson, R.J. (2008). Conscious perception in the attentional blink, an fMRI study. Society for Neuroscience, Washington, USA (Poster).


36. Beets, I.A.M., Rösler, F., & Fiehler, K. (2009). Passive and active training of a new bimanual coordination skill. Society for Neuroscience, Chicago, USA (Poster).


37. Kelso JA (1984) Phase transitions and critical behavior in human bimanual coordination . Am J Physiol 246: R1000-R1004


38. Sept. 2006 – Jan. 2007: Praktikum fMRI Technik an der Universität von Madison, Wisconsin. Angeleitet von Dr. Heleen Slagter, Dr. Sander Nieuwenhuis und Professor Dr. Richard Davidson.


39. Jones AH, Cressman EK, Henriques DYP (in press). Proprioceptive localization of the left and right hands. Experimental Brain Research.


40. Geburtsort: Breda, Niederlande Nationalität: Niederländisch Wissenschaftlicher Werdegang 2002-2005: Psychologie Studium (Bachelor of Science), an der Universität Leiden. 2005-2007: Forschungsorientiertes Master Programm (Master of Philosophy), an der Universität Leiden.


41. R Development Core Team (2009). R: A language and environment for statistical computing. Foundation for Statistical Computing, Vienna, Austria. ISBN 3-900051-07-0, URL http://www.R-project.org.


42. Nelles G, Spiekermann G, Jueptner M, Leonhardt G, Muller S, Gerhard H, Diener HC (1999) Reorganization of sensory and motor systems in hemiplegic stroke patients. A positron emission tomography study. Stroke 30: 1510-1516


43. Hesse S, Schulte-Tigges G, Konrad M, Bardeleben A, Werner C (2003) Robot-assisted arm trainer for the passive and active practice of bilateral forearm and wrist movements in hemiparetic subjects. Arch Phys Med Rehabil 84: 915-920


44. Kaelin-Lang A, Sawaki L, Cohen LG (2005) Role of voluntary drive in encoding an elementary motor memory. J Neurophysiol 93: 1099-1103


45. Craske B, Crawshaw M (1975) Shifts in kinesthesis through time and after active and passive movement. Percept Mot Skills 40: 755-761


46. Tong J, Stevenson SB, Bedell HE (2008) Signals of eye-muscle proprioception modulate perceived motion smear. J Vis 8: 7.1-6


47. Von Prof. Dr. Stephan Swinnen, Universität Leuven, Biomedical Kinesiology / Movement Control and Neuroplasticity. Vortrag im AG-Kolloquium: " Motor learning and motor-perceptual interactions " .


48. Karni A, Meyer G, Rey-Hipolito C, Jezzard P, Adams MM, Turner R, Ungerleider LG (1998) The acquisition of skilled motor performance: fast and slow experience-driven changes in primary motor cortex. Proc Natl Acad Sci U S A 95: 861-868


49. Oldfield RC (1971) The assessment and analysis of handedness: the Edinburgh inventory. Neuropsychologia 9: 97-113


50. Goodwin GM, McCloskey DI, Matthews PB (1972) The contribution of muscle afferents to kinaesthesia shown by vibration induced illusions of movement and by the effects of paralysing joint afferents. Brain 95: 705-748


51. Darling WG, Miller GF (1993) Transformations between visual and kinesthetic coordinate systems in reaches to remembered object locations and orientations. Exp Brain Res 93: 534-547


52. Nudo RJ, Milliken GW, Jenkins WM, Merzenich MM (1996) Use-dependent alterations of movement representations in primary motor cortex of adult squirrel monkeys. J Neurosci 16: 785-807


53. 2009: Vertretung des Seminars " Kognitionspsychologie " von Dr. Katja Fiehler, an der Universität Marburg.


54. Li Y, Levin O, Carson RG, Swinnen SP (2004) Bimanual coordination: constraints imposed by the relative timing of homologous muscle activation. Exp Brain Res 156: 27-38


55. Hodges NJ, Franks IM (2000) Attention focusing instructions and coordination bias: Implications for learning a novel bimanual task. Hum Mov Sci 19: 843-867


56. Swinnen SP, Lee TD, Verschueren S, Serrien DJ, Bogaerds H (1997) Interlimb coordination: Learning and transfer under different feedback conditions. Hum Mov Sci 16: 749-785


57. Rémy F, Wenderoth N, Lipkens K, Swinnen SP (2008) Acquisition of a new bimanual coordination pattern modulates the cerebral activations elicited by an intrinsic pattern: an fMRI study. Cortex 44: 482-493


58. Debaere F, Wenderoth N, Sunaert S, Van Hecke P, Swinnen SP (2004) Changes in brain activation during the acquisition of a new bimanual coodination task. Neuropsychologia 42: 855-867