A theoretical model of phase transitions in human hand movements

A theoretical model of phase transitions in the human brain, Mathematical frameworks for oscillatory network dynamics in neuroscience, How the Brain Generates Movement, Cluster solutions in networks of weakly coupled oscillators on a 2D square torus, Pattern switching in human multilimb coordination dynamics, How do neural connectivity and time delays influence bimanual coordination?, Deterministic and stochastic features of rhythmic human movement, A phase dynamic model of systematic error in simple copying tasks, A nonlinear dynamics model for simulating long range correlations of cognitive bistability, Phase transitions in spatiotemporal patterns of brain activity and behavior, Entrainment and synchronization in networks of Rayleigh-van der Pol oscillators with diffusive and Haken-Kelso-Bunz couplings, Beyond in-phase and anti-phase coordination in a model of joint action, The coordination dynamics of mobile conjugate reinforcement, Crowd behavior dynamics: entropic path-integral model, A model fo the neuro-musculo-skeletal system for human locomotion. I: Emergence of basic gait, A model of the neuro-musculo-skeletal system for human locomotion. II: Real-time adaptability under various constraints, MULTISCALE COMPUTATIONS ON NEURAL NETWORKS: FROM THE INDIVIDUAL NEURON INTERACTIONS TO THE MACROSCOPIC-LEVEL ANALYSIS, Reconstruction of the spatio-temporal dynamics of a human magnetoencephalogram, A model for phase transitions in human hand movements during multifrequency tapping, Linear and nonlinear stiffness and friction in biological rythmic movements, Extending the \(HKB\) model of coordinated movement to oscillators with different eigenfrequencies, Coordination dynamics of trajectory formation, Modeling inter-human movement coordination: synchronization governs joint task dynamics, Bayesian parameter estimation for the Swift model of eye-movement control during reading, Physiological singularities in respiratory and cardiac dynamics, An inverse optimization approach to understand human acquisition of kinematic coordination in bimanual fine manipulation tasks, Numerical approximations of stochastic differential equations with non-globally Lipschitz continuous coefficients, Distinguishing the noise and attractor strength of coordinated limb movements using recurrence analysis, Overview of complex systems in sport, Dynamical systems model of development of the action differentiation in early infancy: a requisite of physical agency, The Effects of Delay on the HKB Model of Human Motor Coordination, Strongly nonlinear stochastic processes in physics and the life sciences, Symmetry axiom of Haken-Kelso-Bunz coordination dynamics revisited in the context of cognitive activity, Power-law scaling for macroscopic entropy and microscopic complexity: Evidence from human movement and posture, Impacts of noise on a field theoretical model of the human brain., Chaotic Frequency Scaling in a Coupled Oscillator Model for Free Rhythmic Actions, Frequency analysis with coupled nonlinear oscillators, Control theory in biology and medicine. Introduction to the special issue, The Haken-Kelso-Bunz (HKB) model: from matter to movement to mind, Two dimensionless parameters and a mechanical analogue for the HKB model of motor coordination, INFORMATION PROCESSING IN BRAIN AND BEHAVIOR DISPLAYED IN LARGE-SCALE SCALP TOPOGRAPHIES SUCH AS EEG AND MEG, SIMULATED ELECTROCORTICAL ACTIVITY AT MICROSCOPIC, MESOSCOPIC AND GLOBAL SCALES, An introduction to synergetics, Automatic control of phase synchronization in coupled complex oscillators, A data-analysis method for identifying differential effects of time-delayed feedback forces and periodic driving forces in stochastic systems, Stabilization of bimanual coordination due to active interhemispheric inhibition: a dynamical account, A Computational Model for Rhythmic and Discrete Movements in Uni- and Bimanual Coordination, Neurologically Motivated Coupling Functions in Models of Motor Coordination, A dynamical model for mirror movements, Principal component analysis of complex multijoint coordinative movements, BISTABLE PHASE SYNCHRONIZATION AND CHAOS IN A SYSTEM OF COUPLED VAN DER POL–DUFFING PSCILLATORS, Emergence of bipedal locomotion through entrainment among the neuro-musculo-skeletal system and the environment, Multifrequency behavioral patterns and the phase attractive circle map, Dynamic theory of action-perception patterns: the ``moving room paradigm, Information compression in biological systems, Mathematization of nature: how it is done, A derivation of a macroscopic field theory of the brain from the quasi-microscopic neural dynamics, Towards a comprehensive theory of brain activity: Coupled oscillator systems under external forces, Cross recurrence quantification of coupled oscillators, Dynamics of multifrequency coordination using parametric driving: theory and experiment, Self-organized control of bipedal locomotion by neural oscillators in unpredictable environment, A stochastic theory of phase transitions in human hand movement

• Synergetics. An introduction. Nonequilibrium phase transitions and self-organization in physics, chemistry, and biology. 3rd rev. and enl. ed
• The nature of the coupling between segmental oscillators of the lamprey spinal generator for locomotion: a mathematical model