Curriculum Vitae: Dagmar Sternad



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Invited Presentations

  1. “From simple movements to complex skills: A task-dynamic approach to motor control”. 60th Conference of Experimental Psychologists, 60. Tagung experimentell arbeitender Psychologen (TeaP 2018), Phillips Universität Marburg, Germany, March 11-14, 2018.

  2. “From simple movements to complex skills: A task-dynamic approach to motor control”. Sensorimotor Control for Animals and Robots, Workshop of the Mathematical and Biological Institute, Ohio State University, Columbus, OH, November 13-17, 2017.

  3. “Towards robots with human dexterity”. Annual NSF-National Robotics Initiative Meeting, Washington, DC, November 9-10, 2017.

  4. “From simple movements to complex skills: A task-dynamic approach to motor control”. Boston Action Club, Northeastern University, Boston, October 19, 2017.

  5. “Control of discrete and rhythmic motor skills – A task-dynamic approach”. Control and Modulation of Neuronal and Motor Systems, Workshop of the Mathematical and Biological Institute, Ohio State University, Columbus, OH, September 11–15, 2017.

  6. “Human-object interactions: A task-dynamic approach as window into learning and adaptation”. Plenary Talk at the 8th International Symposium on Adaptive Motion of Animals and Machines, Hokkaido University, Sapporo, June 27-30, 2017.

  7. “The predictive impairment in autism hypothesis: An empirical assessment”. Joint talk with Pawan Sinha and Nouchette Hadjikhani. Simons Center for the Social Brain, Massachusetts Institute of Technology, April 28, 2017.

  8. “Pitchers and pianists: Timing in discrete and rhythmic motor skills”. New England Sequencing and Timing (NEST), University of Connecticut, Storrs, CT, March 25, 2017.

  9. “From simple movements to complex skills: A task-dynamic approach to motor control”. Keynote Talk at the Annual Conference of the Deutsche Vereinigung für Sportwissenschaften, Sektion Motorik/Training/Biomechanik, Technische Universität Darmstadt, Germany, September 28, 2016.

  10. “From actions to interactions: Variability, stability and predictability in the control of dynamic objects”. Department of Bioengineering, Politecnico di Milano, Italy, May 12, 2016.

  11. “Explorations of extraordinary skill: What can neuroscientists learn from expert performers?” Symposium on Motor Learning in the World of Music, Dance, and Performance: What can we learn from the experts at 26th Annual Conference for Neural Control of Movement, Jamaica, April 29, 2016.

  12. “Control of intermittent and continuous interactions with objects”. 2nd Workshop of the Anthropomorphic Motion Factory: Geometric and Numerical Foundations of Movements, LAAS-CNRS, Toulouse, France, November 19-20, 2015.

  13. “From actions to interactions: Variability, stability and predictability in the control of dynamic objects”. Department of Bioengineering, University of Pittsburgh, October 29, 2015.

  14. “Actions and interactions with the physical world: How the brain controls the body”. Department of Engineering, Lafayette College, Easton, PA, September 15, 2015.

  15. “Skill learning – Actions and interactions with the physical world”. Department of Engineering, Computational and Biological Learning, University of Cambridge, United Kingdom, September 3, 2015.

  16. “Control of intermittent and continuous interactions with objects”. 7th International Symposium on Adaptive Motion of Animals and Machines (AMAM 2015), Massachusetts Institute of Technology, Cambridge, MA, June 20-25, 2015.

  17. “Skill learning – Self-guided practice and retention”. Computational Neuroscience, Hertie Institute for Clinical Brain Research, Eberhard Karls Universität Tübingen, Germany, May 21, 2015.

  18. “Learning of complex skills: A basic approach with clinical perspectives”. Department of Cognitive Neurology, Hertie Institute for Clinical Brain Research, Eberhard Karls Universität Tübingen, Germany, May 18, 2015.

  19. “Learning to never forget: Self-guided practice and reward”. 25th Annual Meeting of the Neural Control of Movement, Charleston, SC, April 21-24, 2015.

  20. “The wonder of human movement: How the brain controls the body”. Master class for incoming University Scholars, Northeastern University, March 23, 2015.

  21. “Long-term retention – the forgotten aspect of motor memory”. Department of Psychology, Beijing University, Beijing, March 11, 2015.

  22. “Actions and interactions in the physical world”. Department of Psychology, Beijing University, Beijing, March 10, 2015.

  23. “Variability and stability in skill acquisition”. Department of Psychology, Beijing University, Beijing, March 9, 2015.

  24. “Actions and interactions in the physical world”. Department of Mechanical Engineering, Control, Instrumentation, & Robotics Area, MIT, February 23, 2015.

  25. “Actions and interactions in the physical world”. Max Planck Institute for Biological Cybernetics, Tübingen, Germany, September 26, 2014.

  26. “Actions and interactions in the physical world”. Department of Cognitive Neurology, Hertie Institute, University of Tübingen, Germany, September 2, 2014.

  27. “Neuroscience for the upper extremity: From analysis to assessment to intervention”. Hospital Rede Lucy Montoro de Reabilitacao (IMREA), Sao Paolo, Brazil, August 16, 2014.

  28. “Neuroscience for the upper extremity: From analysis to assessment to intervention”. Workshop at the IEEE International Conference on Biomedical Robotics and Biomechatronics, BioRob 2014, Sao Paolo, Brazil, August 15, 2014.

  29. “Variability, stability and predictability in physical interaction”. IEEE International Conference on Biomedical Robotics and Biomechatronics, BioRob 2014, Sao Paolo, Brazil, August 12, 2014.

  30. “Variability and stability in skill acquisition: From actions to interactions ”. Department of Bioengineering, Imperial College of London, London, United Kingdom, July 21, 2014.

  31. “Variability and stability in skill acquisition: From actions to interactions ”. Institute of Motor Neuroscience, University College of London, London, United Kingdom, July 18, 2014.

  32. “Variability and stability in skill acquisition: From actions to interactions ”. Institute of Neuroscience, Karl Eberhard University, Tübingen, Germany, July 15, 2014.

  33. “The wonders of human movement: How the brain controls the body”. Klein Award Lecture, Northeastern University, April 8, 2014.

  34. “Quantifying motor learning and interventions in virtual rehabilitation”. CDSP Workshop, Northeastern University, March 28, 2014.

  35. “Variability and stability in skill learning and retention - Behavioral correlates of neuroplasticity”. Department of Psychology, Brandeis University, Waltham, MA, February 27, 2014.

  36. “Actions and interactions in a complex world”. 11th Arthur S. Iberall (1918-2002) Distinguished Lecture on Life and the Sciences of Complexity, University of Connecticut, Storrs, CT, December 6, 2013.

  37. “Variability and stability in skill learning and retention - Behavioral correlates of neuroplasticity”. Department of Cognitive, Linguistic, and Psychological Sciences, Brown University, Providence, November 7, 2013.

  38. “Variability and stability in skill learning - Behavioral correlates of neuroplasticity”. Department of Brain and Cognitive Sciences, Massachusetts Institute of Technology, Boston, November 1, 2013.

  39. “Variability and stability in skill learning and retention- Behavioral correlates of neuroplasticity”. Boston Action Club, Northeastern University, Boston, September 12, 2013.

  40. “Variability and noise in skill acquisition”. Progress in Motor Control IX, Montreal, Canada, July 13-16, 2013.

  41. “Redundancy and variability in skill acquisition”. 10th Motor Control Summer School, Antiochian Village, Ligonier, PA, July 7-11, 2013.

  42. “Rhythmic movements –A window into brain and behavior”. Faculty of Sport and Health Science, Technical University of Munich, Munich, Germany, July 2, 2013.

  43. “Variability and stability in skill learning: From actions to interactions”. Max-Planck Institute for Intelligent Systems, Tübingen, Germany, June 19, 2013.

  44. “Variability and stability in skill learning: From actions to interactions”. Rehabilitation Institute of Chicago, Northwestern University, Chicago, IL, June 6, 2013.

  45. “Rhythm ‘n’ moves: A window into brain and behavior”. Keynote at the Eastern New England Biology Conference, Northeastern University, April 20, 2013 (Keynote talk).

  46. “Rhythmic movements: A window into brain and behavior”. Center for Brain Science, Harvard University, March 25, 2013.

  47. “Sensorimotor skill: Analysis of variability as a window into control.” Applied Mathematics Interdisciplinary Seminar, Northeastern University, January 15, 2013.

  48. “Sensorimotor skills: Mechanics and neurophysiology constrains optimization and rehabilitation”. 35th National Congress in Biomedical Engineering, San Luis Potosi, Mexico, October 5, 2012. (Keynote talk).

  49. “Stability and variability in learning a novel motor skill”. Department of Applied Physiology and Kinesiology, University of Florida, Gainesville FL, September 6, 2012.

  50. “Towards coordinate-free analysis of motor variability”. Santa Lucia Foundation, Rome, Italy, June 24-28, 2012.

  51. “Human control of dynamically complex objects”. Biorob 2012, Rome, Italy, June 24, 2012.

  52. “A neuroscience perspective for upper limb rehabilitation.” Biorob 2012, Rome, Italy, June 26, 2012.

  53. “Multiple solutions in skilled performance – Error tolerance and variability”. Neural Control of Movement, Venice, Italy, April 29, 2012.




  1. “Stability and variability in learning interactive tasks”. Department of Cognitive Science, Rensselaer Polytechnic Institute, Troy, NY, February 29, 2012.




  1. “Human motor performance: Exploiting stability, channeling variability, and tuning safety margins”. Universite Catholique de Louvain, Center for Research in Mechatronic, Louvain, Belgium, December 19, 2011.




  1. “Rhythm ‘n’ moves –A window into brain and behavior”. Universite Catholique de Louvain, Biomedical Engineering, Louvain, Belgium, December 19, 2011.




  1. “Scientific discoveries: Understanding the brain to combat neurological disorders - one step at a time”. Holiday Presentation at the Cape Cod Alumni Chapter of Northeastern Faculty, December 10, 2011.




  1. “Rhythm ‘n’ moves –A window into brain and behavior” Computational Neuroscience, Brandeis University, Waltham MA, November 7, 2011.




  1. “Motor skill: Exploiting stability, channeling variability, and tuning safety margins”. 33rd Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC ’11), Boston, MA, September 1, 2011.




  1. “Stability and variability in learning an interactive task”. VII Computational Motor Control Workshop, Israel, June 12-17, 2011.




  1. “Noise, covariation, and tolerance to error in learning a motor skill.” The Weizmann Institute of Science, Applied Mathematics and Computer Science, Rehovot, Israel, June 20, 2011.




  1. “Bouncing balls: Stability and variability in learning and performance of a rhythmic task.” Technion Israel Institute of Technology, Mechanical Engineering, Technion City, Haifa, Israel, June 13, 2011.




  1. “Motor skills: Exploiting stability, channeling variability, and optimizing safety margins”. Center for Complex Network Research, Northeastern University, April 15, 2011.

  2. “Variability and stability in interactive tasks: From motor learning to neuro-recovery”. BioRobotics Laboratory, School of Engineering, Ecole Polytechnique Federale de Lausanne, Lausanne, Switzerland, September 2, 2010.

  3. “The brain and the exponential power of handwriting – From Movements to Mathematics (and back)”. STEM Research Symposium for Students, Northeastern University, April 15, 2010.

  4. “The neuroscience of interactive tasks: From motor learning to neuro-recovery”. Department of Mechanical Engineering, University Autonoma de San Luis Potosi, Mexico, March 3, 2010.

  5. “Variability, noise, and sensitivity to error in learning a motor task”. Forschungszentrums Netzindustrien und Infrastruktur (CNI), Technical University, Berlin, Germany, September 21, 2009.

  6. “Variability, noise, and sensitivity to error in learning a motor task”. Computational Principles of Sensorimotor Learning, Kloster Irsee, Germany, September 13-15, 2009.

  7. “Dynamic stability and active control in a rhythmic task – A dialogue between data and model”. Satellite Symposium on Theoretical Motor Neuroscience at the 19th Annual Conference of Neural Control of Movement, Waikoloa Beach, April 28 – May 3, 2009.

  8. “Variability, noise, and sensitivity to error in learning a motor task”. Computational Science Invited Lectures, Pennsylvania State University, State College, PA, February 9, 2009.

  9. “Variability, noise, and sensitivity to error in learning a motor task”. Bernstein Center for Computational Neuroscience, Max-Planck-Institute for Dynamics and Self-Organization, Göttingen, Germany, January 13, 2009.

  10. “Dynamical stability and variability in human sensorimotor control: Passive stability and active control in a rhythmic task“. Northeastern University, Center for Interdisciplinary Research in Complex Systems (CIRCS), Boston, December 2, 2008.

  11. “Variability, covariation and sensorimotor noise in motor learning and retention”. Society for Engineering Science, Champaign Urbana IL, October 12-14, 2008.

  12. “Stochastic resonance in the acquisition and control of a perceptual-motor skill”. The Turvey Transition, University of Connecticut, June 19-21, 2008.

  13. “Variability, noise and sensitivity to error in motor learning”. Department of Neurology and Neurological Sciences, Stanford Medical Center, Stanford University, CA, March 20, 2008.

  14. “Rhythm ‘n’ moves – A window into brain and behavior”. Institute for Research in Cognitive Science, University of Pennsylvania (IRCS), Philadelphia, February 1, 2008.

  15. “Variability, covariation and equifinality in motor learning and retention”. Institute for Sport Sciences, University of Giessen, Giessen, Germany, January 11, 2008.

  16. “Stability and variability in rhythmic and discrete tasks”. International Conference Progress in Motor Control VI, Brazil, August 18-21, 2007.

  17. “Stability and variability in a rhythmic task: Passive stability and active control in ball bouncing”. Department of Electrical Engineering, University of Liege, Liege, Belgium, May 8, 2007.




  1. “Towards a framework for rhythmic and discrete movements – Behavioral results, modeling and brain imaging. Department of Psychology, University of Connecticut, Storrs, CT, April 6, 2007.




  1. “Analysis of rhythmic and discrete movements: Issues of timing, coordinate systems and primitives.” Department of Biology, Northeastern University, Boston, MA, April 5, 2007.




  1. “Towards a framework for rhythmic and discrete dynamics: Behavioral results, modeling and brain imaging.” Conference and Festschrift for Scott Kelso, Boca Raton, FL, February 23-25, 2007.




  1. “Stability and perturbation analyses in a rhythmic task”. Workshop on “Mathematical stability analyses in biomechanics und robotics.” Center for Interdisciplinary Research, University of Bielefeld, Germany, February 15-17, 2007.




  1. “Rhythm ‘n’ Moves – Behavioral, modeling, and fMRI results on rhythmic and discrete movements”, Department of Psychology, University of Potsdam, Germany, December 20, 2006.




  1. “Rhythmic and discrete movements – Behavioral and fMRI results.” Crossover 2006, Conference at Penn State organized by the Huck Institute, University Park, PA, October 12, 2006.




  1. “Rhythm ‘n’ Moves – Behavioral, modeling, and fMRI results on rhythmic and discrete movements” Behavioral and Brain Sciences, School of Psychology, University of Birmingham, Great Britain, September 5, 2006.




  1. “Two types of control for rhythmic and discrete movements? New results from fMRI.” Symposium at the Annual Conference of the North American Society for Sport Psychology and Physical Activity, June 3, 2006.




  1. “Variability and stability in a rhythmic task: Active and passive control in ball bouncing.” Department of Psychology, Wright State University, Dayton, OH, February 24, 2006.




  1. “Securing a reliable outcome in short goal-oriented movements – Three components of skill improvement”. International Conference on Progress in Motor Control V – A Multidisciplinary Perspective, State College, PA, August 17-20, 2005.




  1. “Discrete and rhythmic movements as two units of action: fMRI, behavioral and modeling results.” Department of Brain and Cognitive Sciences, Massachusetts Institute of Technology, Cambridge, MA, March 11, 2005.




  1. “Discrete and rhythmic movements as two units of action: fMRI, behavioral and modeling results.” Department of Psychology, University of Connecticut, Storrs, CT, March 7, 2005.




  1. “Rhythm ‘n’ Moves – A window into brain and behavior.” National Science Foundation, Washington, DC, February 12, 2005.




  1. “Rhythm ‘n’ Moves – A window into brain and behavior.” Department of Anatomy and Neurobiology, University of Maryland, School of Medicine, Baltimore, MD, February 14, 2005.




  1. “Rhythm ‘n’ Moves – A window into brain and behavior.” Department of Kinesiology, Arizona State University, Tempe, AZ, February 7, 2005.




  1. “The role of resonance in the timing of rhythmic movements”. International Scientific Congress on Motor Control, Wisla, Poland, October 23-26, 2004.




  1. “Rhythm ‘n’ Movement.” Summer Academy of the Studienstiftung des Deutschen Volkes, St. Johann, Italy, September 8, 2004.




  1. “Rhythmic timing and resonance constraints.” 28th International Conference on Psychology, August 8-13, 2004, Beijing, China.




  1. “Discrete and rhythmic movements as two units of action: fMRI and behavioral results.” Donders Institute for Cognitive Neuroscience, University of Nijmegen, Netherlands, June 24, 2004.




  1. “Paradigms in motor control - Overview and examples from a dynamical systems perspective”. Institute for Biomechanics, University of Jena, Germany, June 30, 2004.




  1. “Tuning into dynamic stability: Acquisition and performance of a rhythmic ball skill.” Invited presentation at the International Conference Progress in Motor Control IV, Caen, France, August 22, 2003.




  1. “Discrete and rhythmic dynamics as primitives in the control and coordination of action.” Max Planck Institute for Psychological Research, Munich, Germany, August 14, 2003.




  1. “Discrete and rhythmic dynamics as primitives in the control and coordination of action.” Institute of Mathematics and Signal Processing, University of the Armed Forces, Munich, Germany, August 13, 2003.




  1. “Period drift and variability in a rhythmic task - Signatures of an oscillator.” Department of Psychology, University of Pennsylvania, Philadelphia, PA, May 9, 2003.




  1. “Discrete and rhythmic dynamics as primitives in the control and coordination of action: Behavioral data and brain imaging”. Department of Kinesiology, University of Michigan, Ann Arbor, MI, December 9, 2002.




  1. “Discrete and rhythmic dynamics as primitives in the control and coordination of action: Behavioral data and brain imaging”. Hershey Medical Center, Pennsylvania State University, Hershey, PA, October 24, 2002.




  1. “Discrete and rhythmic dynamics as primitives in the control and coordination of action: Behavioral data and a dynamical model”. Department of Physical Therapy, University of Delaware, Newark, DE, October 18, 2002.




  1. “Acquisition and performance of a rhythmic skill”. Symposium of the “Movement Club” at the University of Paris Sud XI, Paris, September 24, 2002.




  1. “Discrete and rhythmic dynamics as units of coordinated action: Behavioral data, a dynamic model, and brain imaging results “ Department of Mouvement and Perception, University of Marseille, France, September 18, 2002.




  1. “Ball bouncing: Acquisition and performance of a rhythmic skill”. Center for Research in Sport Sciences University of Paris Sud XI, Paris, May 30, 2002.




  1. “Dynamical stability and visual information in rhythmic ball manipulation”. Department of Theoretical and Applied Mechanics, Cornell University, Ithaca, NY, October 11, 2001.




  1. “Discrete and rhythmic dynamics as primitives in the control and coordination of action: Behavioral data and a dynamical model”. Department of Theoretical and Applied Mechanics, Cornell University, Ithaca, NY, October 12, 2001.




  1. “Discrete and rhythmic dynamics as units of coordinated action: Behavioral data, a dynamic model, and brain imaging results”, Department of Movement Sciences, University of Illinois at Chicago, Chicago, IL, May 11, 2001.




  1. “Discrete and rhythmic dynamics as units of coordinated action: Behavioral data, a dynamic model, and brain imaging results”. Department of Physical Medicine and Rehabilitation, Northwestern University, Chicago, IL, May 10, 2001.




  1. “Discrete and rhythmic dynamics as units of coordinated action: Behavioral data, a dynamic model, and brain imaging results“. Medical School and Clinic for Child Neurology, Stanford University, Stanford, CA, April 9, 2001.




  1. “Discrete and rhythmic dynamics as units of coordinated action: Behavioral data, a dynamic model, and brain imaging results“. Department of Psychology, Berkeley University, Berkeley, CA April 6, 2001.




  1. “The role of dynamic stability for the acquisition and performance of a rhythmic skill.” University School of Physical Education, University of Katowice, Poland, October 26, 2000.




  1. “Rhythm and movement – A dynamic systems perspective”. Academy of Physical Education, University of Wroclaw, Poland, October 22, 2000.




  1. “The role of dynamic stability for the acquisition and performance of a rhythmic skill”. Invited presentation at the International Scientific Conference Motor Control 2000 at the Academy of Physical Education in Katowice, Poland, October 27 - 29.




  1. “A dynamic systems perspective to interlimb and intralimb coordination”. Department of Sport Science, Technical University of Munich, Germany, July 27, 2000.




  1. “Planarity and 2/3 power law in endpoint trajectories of 3D drawing movements”. Department of Electrical Engineering, Technical University of Munich, Germany, July 20, 2000.




  1. “Coordination and control of actions: From intralimb to interlimb coordination”. The Santa Fe Institute, Santa Fe, NM, June 16, 2000.




  1. “Coupled oscillations as a model for bimanual coordination: From interlimb to intralimb coordination”. Department of Psychology, Ohio State University, Columbus OH, October 22, 1999.




  1. "Interaction of rhythmic and discrete pattern generators in human point-to-point movements." Department of Neurobiology and Anatomy, Medical College of Pennsylvania/Hahnemann Medical School, Allegheny University, Philadelphia, PA, May 12, 1999.




  1. "Planarity and 2/3 power law in endpoint trajectories of 3D drawing movements: Generating mechanisms or epiphenomena?" Center for the Ecological Study of Perception and Action, University of Connecticut, Storrs, CT, March, 1999.



  2. “Coordination and control of actions: A dynamic approach to multi-joint movements”. The Santa Fe Institute, Santa Fe, NM, December, 1998.



  3. “2/3 power law and movement segmentation in 3D arm movements.” Center for Complex Systems, Florida Atlantic University, Boca Raton, FL, April, 1998.



  4. “A dynamic system’s perspective on issues in motor control.” Technical University of Munich, Germany, December, 1997.




  1. “The dynamic systems approach to movement control.” Keynote address at the conference “Sport Kinetics ‘97”, Magdeburg, Germany, 1997.




  1. "Oscillatory dynamics for multi-joint coordination." Department of Kinesiology, University of Waterloo, Canada, July, 1997.



  2. "The dynamic systems approach to perception and action: From interlimb to intralimb coordination". Kawato Dynamic Brain Project, ERATO, Japan, June 23, 1997.



  3. "Dynamics of 1:2 coordination in bimanual rhythmic movement." The Santa Fe Institute for Complex Systems, Santa Fe, NM, April, 1997.



  4. "Bouncing of a ball: Dynamic stability and the role of visual and haptic perception." Los Alamos National Laboratory, TSA-DO/SA MS M997, Los Alamos, NM, April, 1997.



  5. "Dynamics of 1:2 coordination in bimanual rhythmic movement." Center for Complex Systems, Florida Atlantic University, Boca Raton, FL, February, 1997.



  6. "Dynamics of 1:2 coordination in bimanual rhythmic movement." Department for Cybernetic Psychology, University of Düsseldorf, Germany, September, 1996.




  1. “Die amerikanische Bernstein-Rezeption und die USA-Konferenz zu Bernstein’s Tradition in Motor Control” (The American Bernstein reception and the US conference on Bernstein’s traditions in motor control.) Keynote presentation at the 2. Bernstein-Konferenz: Bewegungskoordination und sportliche Leistung integrativ betrachtet, Zinnowitz/Usedom, Germany, September, 1996.



  2. "Perceptual control of movement, units of action, and dynamical approaches." Los Alamos National Laboratory, TSA-DO/SA MS M997, Los Alamos, NM, May, 1996.



  3. "A dynamical perspective on the control and coordination of movement." Department for Computer and Information Science, GRASP Lab, University of Pennsylvania, Philadelphia, PA, 1995.



  4. "Diffusive, synaptic and synergetic coupling: An evaluation through inphase and antiphase rhythmic movements." Department for Cybernetic Psychology, University of Düsseldorf, Germany, 1994.



  5. "Average phase difference theory and 1:1 phase entrainment in interlimb coordination." Complex Systems Summer School, Santa Fe, NM, 1992.



  6. "Average phase difference theory and 1:1 phase entrainment in interlimb coordination." 3. dvs-Sommerakademie (Deutsche Vereinigung für Sportwissenschaften), Berlin, 1992.



  7. "On the dynamics of serial order in human coordination." Max-Planck-Institut für Psychologie, München, 1991.



  8. "Average phase difference theory and 1:1 phase entrainment in interlimb coordination." Department of Psychology, University of Amherst, MA, 1991.



  9. "Neurophysiological aspects of endurance training on the example of aerobics." Symposium on Sports Medicine, München, 1989.



  10. "Neurophysiological Aspects of Aerobics and Stretching." Institute for Sports Medicine, Buenos Aires, Argentina, 1987.



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