Objective: This paper introduces a generalized coherence framework for detecting and characterizing nonlinear interactions in the nervous system, namely cross-spectral coherence (CSC). CSC can detect different types of nonlinear interactions including harmonic and intermodulation coupling as present in static nonlinearities and also subharmonic coupling, which only occurs with dynamic nonlinearities. Methods: We verified the performance of CSC in model simulations with both static and dynamic nonlinear systems. We applied CSC to investigate nonlinear stimulus-response interactions in the human proprioceptive system. A periodic movement perturbation was imposed to the wrist when the subjects performed an isotonic wrist flexion. CSC analysis ...
Progress in understanding the global brain dynamics has remained slow to date in large part because ...
During the past decades, considerable effort has been devoted to the development of signal processin...
Cortical responses to continuous stimuli as recorded using either magneto- or electroencephalography...
Objective: This paper introduces a generalized coherence framework for detecting and characterizing ...
Coupling between cortical oscillations and muscle activity facilitates neuronal communication during...
Objective: This paper introduces the Cross-frequency Amplitude Transfer Function (CATF), a model-fre...
This paper introduces the Cross-frequency Amplitude Transfer Function (CATF), a model-free method fo...
Neural coupling between the central nervous system and the periphery is essential for the neural con...
As the theory of nonlinear dynamics clearly shows, a state space is the natural framework in which t...
Neural field theory of the corticothalamic system is used to analyze nonlinear wave-wave interaction...
Neuronal oscillations are observed in many brain areas in various frequency bands. Each of the frequ...
Summarization: Over the past few years there has been an increased interest in studying the underlyi...
This thesis was focused on theoretical models of synchronization to cortical dynamics as measured by...
Functional connectivity between cortical areas may appear as correlated time behavior of neural acti...
Patterns in external sensory stimuli can rapidly entrain neuronally generated oscillations observed ...
Progress in understanding the global brain dynamics has remained slow to date in large part because ...
During the past decades, considerable effort has been devoted to the development of signal processin...
Cortical responses to continuous stimuli as recorded using either magneto- or electroencephalography...
Objective: This paper introduces a generalized coherence framework for detecting and characterizing ...
Coupling between cortical oscillations and muscle activity facilitates neuronal communication during...
Objective: This paper introduces the Cross-frequency Amplitude Transfer Function (CATF), a model-fre...
This paper introduces the Cross-frequency Amplitude Transfer Function (CATF), a model-free method fo...
Neural coupling between the central nervous system and the periphery is essential for the neural con...
As the theory of nonlinear dynamics clearly shows, a state space is the natural framework in which t...
Neural field theory of the corticothalamic system is used to analyze nonlinear wave-wave interaction...
Neuronal oscillations are observed in many brain areas in various frequency bands. Each of the frequ...
Summarization: Over the past few years there has been an increased interest in studying the underlyi...
This thesis was focused on theoretical models of synchronization to cortical dynamics as measured by...
Functional connectivity between cortical areas may appear as correlated time behavior of neural acti...
Patterns in external sensory stimuli can rapidly entrain neuronally generated oscillations observed ...
Progress in understanding the global brain dynamics has remained slow to date in large part because ...
During the past decades, considerable effort has been devoted to the development of signal processin...
Cortical responses to continuous stimuli as recorded using either magneto- or electroencephalography...