Coherence between the force and EMG burst oscillations.

Changes (from 5 to 30% MVC) in EMG burst oscillations below 0.5 Hz and interference EMG.

Hwasil Moon (655036)
Changki Kim (284225)
Minhyuk Kwon (655037)
Yen Ting Chen (361838)
Tanya Onushko (655038)
Neha Lodha (274131)
Evangelos A. Christou (284228)

November 2014

Based on the multiple regression model, the change in power from 35–60 Hz in the interference EMG...

Rectifying and filtering of EMG signals has a large effect on power and coherence spectra.

Edwin H. F. van Asseldonk (521560)
Sanne Floor Campfens (521561)
Stan J. F. Verwer (521562)
Michel J. A. M. van Putten (348271)
Dick F. Stegeman (521563)

February 2014

Representative data for a single subject (Subject #2) showing the effect of rectifying and filter...

60 Hz filtered VM EMG with wavelet filter envelope (top), and 60 Hz filtered VL EMG (bottom).

Daniel Comaduran Marquez (5117702)
Vinzenz von Tscharner (431518)
Kartikeya Murari (3952316)
Benno M. Nigg (728066)

November 2018

Traces show EMG data from one subject. Envelope output of the wavelet filter (black trace), midpoint...

Quantification of low-frequency oscillations in force and muscle activity.

Hwasil Moon (655036)
Changki Kim (284225)
Minhyuk Kwon (655037)
Yen Ting Chen (361838)
Tanya Onushko (655038)
Neha Lodha (274131)
Evangelos A. Christou (284228)

November 2014

A) The force task (left column) and its corresponding interference EMG (right column). B) The for...

Force control is related to low-frequency oscillations in force and surface EMG.

Hwasil Moon
Changki Kim
Minhyuk Kwon
Yen Ting Chen
Tanya Onushko
Neha Lodha
Evangelos A Christou

Force variability during constant force tasks is directly related to oscillations below 0.5 Hz in fo...

Comparison of force oscillation (A), force power spectral density (B) and EMG amplitude (C) between isometric (black lines) vs. spring (grey lines) contractions in a representative volunteer.

Francesco Budini (675479)
Lara M. McManus (675480)
Marika Berchicci (283885)
Federica Menotti (675481)
Andrea Macaluso (455268)
Francesco Di Russo (283896)
Madeleine M. Lowery (675482)
Giuseppe De Vito (411408)

December 2014

For plot A, mean force values were subtracted from the force signals and force data were low pass...

Force Control Is Related to Low-Frequency Oscillations in Force and Surface EMG

Hwasil Moon (655036)
Changki Kim (284225)
Minhyuk Kwon (655037)
Yen Ting Chen (361838)
Tanya Onushko (655038)
Neha Lodha (274131)
Evangelos A. Christou (284228)

November 2014

<div>Force variability during constant force tasks is directly related to oscillations below 0.5 ...

Coherence-, gain- and phase-frequency estimates of stimulus conditions for stimulus-EMG (top) and stimulus-AP force (bottom).

Patrick A. Forbes (505194)
Christopher J. Dakin (505195)
Anoek M. Geers (505196)
Martijn P. Vlaar (505197)
Riender Happee (424458)
Gunter P. Siegmund (505198)
Alfred C. Schouten (394517)
Jean-Sébastien Blouin (505199)

January 2014

A: pooled (n = 8) coherence plots for each stimulus condition. B: pooled (n = 8) gain plots for e...

Coherence spectra are most consistent between sessions when estimated using rectified EMG signals.

Edwin H. F. van Asseldonk (521560)
Sanne Floor Campfens (521561)
Stan J. F. Verwer (521562)
Michel J. A. M. van Putten (348271)
Dick F. Stegeman (521563)

February 2014

The most left graphs (A,E,I) depict the coherence spectra within the 15–35 Hz frequency range for...

Corticomuscular and bilateral EMG coherence reflect distinct aspects of neural synchronization

Boonstra, T.W.
van Wijk, B.C.M.
Praamstra, P.
Daffertshofer, A.

January 2009

Using electroencephalography (EEG) and electromyography (EMG), corticomuscular and bilateral motor u...

he

January 2016

2000). Phase coherence calculations between cortical oscillations coherence during a static and dyna...

Coherence of the Surface EMG and Common Synaptic Input to Motor Neurons

Jakob L. Dideriksen
Francesco Negro
Deborah Falla
Signe R. Kristensen
Natalie Mrachacz-Kersting
Dario Farina

June 2018

Coherence between electromyographic (EMG) signals is often used to infer the common synaptic input t...

Typical EMG and force output traces.

Kazumasa Uehara (285647)
Takuya Morishita (285649)
Shinji Kubota (285651)
Kozo Funase (285652)

February 2013

Each trace shows examples of force and EMG in the left FDI and the level of each force in a typic...

Contrasts of spectral features of the EMG between static and dynamic force-tracking.

Yi-Ching Chen (464980)
Yen-Ting Lin (464981)
Chien-Ting Huang (295497)
Chia-Li Shih (464982)
Zong-Ru Yang (464983)
Ing-Shiou Hwang (295498)

September 2013

(A) Pooled spectral profiles of un-rectified and rectified EMG, (B) The means and standard errors...

The associations between changes in force and muscle activity.

Hwasil Moon (655036)
Changki Kim (284225)
Minhyuk Kwon (655037)
Yen Ting Chen (361838)
Tanya Onushko (655038)
Neha Lodha (274131)
Evangelos A. Christou (284228)

November 2014

We explain these associations starting at the bottom of the diagram. The change in variability of...

Changes (from 5 to 30% MVC) in EMG burst oscillations below 0.5 Hz and interference EMG.

Hwasil Moon (655036)
Changki Kim (284225)
Minhyuk Kwon (655037)
Yen Ting Chen (361838)
Tanya Onushko (655038)
Neha Lodha (274131)
Evangelos A. Christou (284228)

November 2014

Based on the multiple regression model, the change in power from 35–60 Hz in the interference EMG...

Rectifying and filtering of EMG signals has a large effect on power and coherence spectra.

Edwin H. F. van Asseldonk (521560)
Sanne Floor Campfens (521561)
Stan J. F. Verwer (521562)
Michel J. A. M. van Putten (348271)
Dick F. Stegeman (521563)

February 2014

Representative data for a single subject (Subject #2) showing the effect of rectifying and filter...

60 Hz filtered VM EMG with wavelet filter envelope (top), and 60 Hz filtered VL EMG (bottom).

Daniel Comaduran Marquez (5117702)
Vinzenz von Tscharner (431518)
Kartikeya Murari (3952316)
Benno M. Nigg (728066)

November 2018

Traces show EMG data from one subject. Envelope output of the wavelet filter (black trace), midpoint...

Quantification of low-frequency oscillations in force and muscle activity.

Hwasil Moon (655036)
Changki Kim (284225)
Minhyuk Kwon (655037)
Yen Ting Chen (361838)
Tanya Onushko (655038)
Neha Lodha (274131)
Evangelos A. Christou (284228)

November 2014

A) The force task (left column) and its corresponding interference EMG (right column). B) The for...

Force control is related to low-frequency oscillations in force and surface EMG.

Hwasil Moon
Changki Kim
Minhyuk Kwon
Yen Ting Chen
Tanya Onushko
Neha Lodha
Evangelos A Christou

Force variability during constant force tasks is directly related to oscillations below 0.5 Hz in fo...

Comparison of force oscillation (A), force power spectral density (B) and EMG amplitude (C) between isometric (black lines) vs. spring (grey lines) contractions in a representative volunteer.

Francesco Budini (675479)
Lara M. McManus (675480)
Marika Berchicci (283885)
Federica Menotti (675481)
Andrea Macaluso (455268)
Francesco Di Russo (283896)
Madeleine M. Lowery (675482)
Giuseppe De Vito (411408)

December 2014

For plot A, mean force values were subtracted from the force signals and force data were low pass...

Force Control Is Related to Low-Frequency Oscillations in Force and Surface EMG

Hwasil Moon (655036)
Changki Kim (284225)
Minhyuk Kwon (655037)
Yen Ting Chen (361838)
Tanya Onushko (655038)
Neha Lodha (274131)
Evangelos A. Christou (284228)

November 2014

<div>Force variability during constant force tasks is directly related to oscillations below 0.5 ...

Coherence-, gain- and phase-frequency estimates of stimulus conditions for stimulus-EMG (top) and stimulus-AP force (bottom).

Patrick A. Forbes (505194)
Christopher J. Dakin (505195)
Anoek M. Geers (505196)
Martijn P. Vlaar (505197)
Riender Happee (424458)
Gunter P. Siegmund (505198)
Alfred C. Schouten (394517)
Jean-Sébastien Blouin (505199)

January 2014

A: pooled (n = 8) coherence plots for each stimulus condition. B: pooled (n = 8) gain plots for e...

Coherence spectra are most consistent between sessions when estimated using rectified EMG signals.

Edwin H. F. van Asseldonk (521560)
Sanne Floor Campfens (521561)
Stan J. F. Verwer (521562)
Michel J. A. M. van Putten (348271)
Dick F. Stegeman (521563)

February 2014

The most left graphs (A,E,I) depict the coherence spectra within the 15–35 Hz frequency range for...

Corticomuscular and bilateral EMG coherence reflect distinct aspects of neural synchronization

Boonstra, T.W.
van Wijk, B.C.M.
Praamstra, P.
Daffertshofer, A.

January 2009

Using electroencephalography (EEG) and electromyography (EMG), corticomuscular and bilateral motor u...

he

January 2016

2000). Phase coherence calculations between cortical oscillations coherence during a static and dyna...

Coherence of the Surface EMG and Common Synaptic Input to Motor Neurons

Jakob L. Dideriksen
Francesco Negro
Deborah Falla
Signe R. Kristensen
Natalie Mrachacz-Kersting
Dario Farina

June 2018

Coherence between electromyographic (EMG) signals is often used to infer the common synaptic input t...

Typical EMG and force output traces.

Kazumasa Uehara (285647)
Takuya Morishita (285649)
Shinji Kubota (285651)
Kozo Funase (285652)

February 2013

Each trace shows examples of force and EMG in the left FDI and the level of each force in a typic...

Contrasts of spectral features of the EMG between static and dynamic force-tracking.

Yi-Ching Chen (464980)
Yen-Ting Lin (464981)
Chien-Ting Huang (295497)
Chia-Li Shih (464982)
Zong-Ru Yang (464983)
Ing-Shiou Hwang (295498)

September 2013

(A) Pooled spectral profiles of un-rectified and rectified EMG, (B) The means and standard errors...

The associations between changes in force and muscle activity.

Hwasil Moon (655036)
Changki Kim (284225)
Minhyuk Kwon (655037)
Yen Ting Chen (361838)
Tanya Onushko (655038)
Neha Lodha (274131)
Evangelos A. Christou (284228)

November 2014

We explain these associations starting at the bottom of the diagram. The change in variability of...

Changes (from 5 to 30% MVC) in EMG burst oscillations below 0.5 Hz and interference EMG.

Hwasil Moon (655036)
Changki Kim (284225)
Minhyuk Kwon (655037)
Yen Ting Chen (361838)
Tanya Onushko (655038)
Neha Lodha (274131)
Evangelos A. Christou (284228)

November 2014

Based on the multiple regression model, the change in power from 35–60 Hz in the interference EMG...

Rectifying and filtering of EMG signals has a large effect on power and coherence spectra.

Edwin H. F. van Asseldonk (521560)
Sanne Floor Campfens (521561)
Stan J. F. Verwer (521562)
Michel J. A. M. van Putten (348271)
Dick F. Stegeman (521563)

February 2014

Representative data for a single subject (Subject #2) showing the effect of rectifying and filter...

60 Hz filtered VM EMG with wavelet filter envelope (top), and 60 Hz filtered VL EMG (bottom).

Daniel Comaduran Marquez (5117702)
Vinzenz von Tscharner (431518)
Kartikeya Murari (3952316)
Benno M. Nigg (728066)

November 2018

Traces show EMG data from one subject. Envelope output of the wavelet filter (black trace), midpoint...

Coherence between the force and EMG burst oscillations.

Abstract

Extracted data

Coherence between the force and EMG burst oscillations.

Abstract

Extracted data

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