Propagation speed as a function of frequency for band-pass noise stimuli, filtered using narrow-band filters, averaged across participants.

Decay exponent as a function of frequency across participants (error bars denote SEM).

Louise R. Manfredi (333121)
Andrew T. Baker (333122)
Damian O. Elias (203759)
John F. Dammann III (333123)
Mark C. Zielinski (285919)
Vicky S. Polashock (333124)
Sliman J. Bensmaia (253734)

February 2013

The decay exponent is lowest (and so decay is slowest) at around 200–250 Hz, at which Pacinian af...

Frequency selectivity for frequencies below 100 Hz: comparisons with mid-frequencies

Orellana, Carlos Andrés Jurado
Moore, Brian C.J.

December 2010

Auditory filter shapes were derived for signal frequencies (fs) between 50 and 1000 Hz, using the no...

The system bandpass required to avoid distortion of early components when averaging somatosensory evoked potentials

Desmedt, Jean Edouard
Brunko, Eric
Debecker, Julien
Carmeliet, Jacques

January 1974

The effects of 14 filter conditions with cutoff ranging from 3 kc/sec to 50 c/sec and with either 6 ...

Group delay for different cut-off frequencies of a Butterworth low-pass filter.

Immo Weber (2423185)
Esther Florin (4034096)
Michael von Papen (4600693)
Lars Timmermann (134394)

November 2017

a) Group delay as a function of frequency for low-pass filter of 320 Hz (bottom), 160 Hz (middle)...

Spatial frequency perception is biased in filtered noise.

Tom Putzeys (171574)
Matthias Bethge (146851)
Felix Wichmann (171582)
Johan Wagemans (137648)
Robbe Goris (171588)

April 2012

(a) The perceived spatial frequency of a grating embedded in low-pass noise (red) and high-pass n...

Comparisons of speed discrimination thresholds as a function of speed noise level.

Yue Chen (73753)
Daniel Norton (575556)
Ryan McBain (333848)

June 2014

The x-axis represents the noise level (including the no noise condition) for a pair of random dot...

Response waveforms from 0.4 kHz to 1.5 kHz reveal a well-defined frequency following response (FFR) that masked late response peaks.

Jingfeng Chen (844884)
Teppei Jono (844885)
Jianguo Cui (292488)
Xizi Yue (844886)
Yezhong Tang (292494)

January 2016

Response waveforms from 0.4 kHz to 1.5 kHz reveal a well-defined frequency following response (FF...

Channels With Significant Speed-Related Activity at 3F1.

Rick O. Gilmore (3166008)
Amanda L. Thomas (788786)
Jeremy Fesi (3166011)

June 2016

Plot of all channel-level pattern effects exceeding the p < .0005 threshold. The bars indi...

Auditory filters at low-frequencies:filter shape in the range 50 Hz to 1000 Hz

Orellana, Carlos Andrés Jurado
Pedersen, Christian Sejer
Møller, Henrik

January 2009

Prediction and assessment of low-frequency noise problems requires information about the auditory fi...

Assessing mechanisms of frequency discrimination by comparison of different measures over a wide frequency range.

Moore, Brian CJ
Vinay

August 2023

Acknowledgements: We thank Hedwig Gockel for advice about statistics and helpful comments on an earl...

Entrainment (measured using vector strength) of a population of PC afferents in response to stimuli as a function of the frequency of the stimulus and of the propagation speed of the surface waves.

Louise R. Manfredi (333121)
Andrew T. Baker (333122)
Damian O. Elias (203759)
John F. Dammann III (333123)
Mark C. Zielinski (285919)
Vicky S. Polashock (333124)
Sliman J. Bensmaia (253734)

February 2013

Low frequencies are less susceptible to temporal blur and higher speeds tend to cause less blur.<...

Detection from band-limited ECoG amplitudes.

Tobias Pistohl (276813)
Thomas Sebastian Benedikt Schmidt (276814)
Tonio Ball (68765)
Andreas Schulze-Bonhage (68761)
Ad Aertsen (29219)
Carsten Mehring (276815)

January 2013

Detection accuracy, obtained using amplitudes from different frequency bands of the ECoG. Every c...

Slide credit: A. Efros

Erkut Erdem
Edge Detection
Hough Transform
Edge Detection

October 2015

•  A signal is composed of low and high frequency components! low frequency components: smooth /&quo...

Analysis of wave speed for stimulus-induced responses.

Lian Zheng (148007)
Haishan Yao (148011)

July 2012

(A) Distribution of wave speeds for the responses to 4-Hz contrast reversal gratings for all 10 e...

Bias test.

Fausto Lucena (349948)
Allan Kardec Barros (349950)
José C. Príncipe (349951)
Noboru Ohnishi (349952)

February 2013

(A) Partial representation of a population code composed of (decoding) waveforms learned from ICA...

Decay exponent as a function of frequency across participants (error bars denote SEM).

Louise R. Manfredi (333121)
Andrew T. Baker (333122)
Damian O. Elias (203759)
John F. Dammann III (333123)
Mark C. Zielinski (285919)
Vicky S. Polashock (333124)
Sliman J. Bensmaia (253734)

February 2013

The decay exponent is lowest (and so decay is slowest) at around 200–250 Hz, at which Pacinian af...

Frequency selectivity for frequencies below 100 Hz: comparisons with mid-frequencies

Orellana, Carlos Andrés Jurado
Moore, Brian C.J.

December 2010

Auditory filter shapes were derived for signal frequencies (fs) between 50 and 1000 Hz, using the no...

The system bandpass required to avoid distortion of early components when averaging somatosensory evoked potentials

Desmedt, Jean Edouard
Brunko, Eric
Debecker, Julien
Carmeliet, Jacques

January 1974

The effects of 14 filter conditions with cutoff ranging from 3 kc/sec to 50 c/sec and with either 6 ...

Group delay for different cut-off frequencies of a Butterworth low-pass filter.

Immo Weber (2423185)
Esther Florin (4034096)
Michael von Papen (4600693)
Lars Timmermann (134394)

November 2017

a) Group delay as a function of frequency for low-pass filter of 320 Hz (bottom), 160 Hz (middle)...

Spatial frequency perception is biased in filtered noise.

Tom Putzeys (171574)
Matthias Bethge (146851)
Felix Wichmann (171582)
Johan Wagemans (137648)
Robbe Goris (171588)

April 2012

(a) The perceived spatial frequency of a grating embedded in low-pass noise (red) and high-pass n...

Comparisons of speed discrimination thresholds as a function of speed noise level.

Yue Chen (73753)
Daniel Norton (575556)
Ryan McBain (333848)

June 2014

The x-axis represents the noise level (including the no noise condition) for a pair of random dot...

Response waveforms from 0.4 kHz to 1.5 kHz reveal a well-defined frequency following response (FFR) that masked late response peaks.

Jingfeng Chen (844884)
Teppei Jono (844885)
Jianguo Cui (292488)
Xizi Yue (844886)
Yezhong Tang (292494)

January 2016

Response waveforms from 0.4 kHz to 1.5 kHz reveal a well-defined frequency following response (FF...

Channels With Significant Speed-Related Activity at 3F1.

Rick O. Gilmore (3166008)
Amanda L. Thomas (788786)
Jeremy Fesi (3166011)

June 2016

Plot of all channel-level pattern effects exceeding the p < .0005 threshold. The bars indi...

Auditory filters at low-frequencies:filter shape in the range 50 Hz to 1000 Hz

Orellana, Carlos Andrés Jurado
Pedersen, Christian Sejer
Møller, Henrik

January 2009

Prediction and assessment of low-frequency noise problems requires information about the auditory fi...

Assessing mechanisms of frequency discrimination by comparison of different measures over a wide frequency range.

Moore, Brian CJ
Vinay

August 2023

Acknowledgements: We thank Hedwig Gockel for advice about statistics and helpful comments on an earl...

Entrainment (measured using vector strength) of a population of PC afferents in response to stimuli as a function of the frequency of the stimulus and of the propagation speed of the surface waves.

Louise R. Manfredi (333121)
Andrew T. Baker (333122)
Damian O. Elias (203759)
John F. Dammann III (333123)
Mark C. Zielinski (285919)
Vicky S. Polashock (333124)
Sliman J. Bensmaia (253734)

February 2013

Low frequencies are less susceptible to temporal blur and higher speeds tend to cause less blur.<...

Detection from band-limited ECoG amplitudes.

Tobias Pistohl (276813)
Thomas Sebastian Benedikt Schmidt (276814)
Tonio Ball (68765)
Andreas Schulze-Bonhage (68761)
Ad Aertsen (29219)
Carsten Mehring (276815)

January 2013

Detection accuracy, obtained using amplitudes from different frequency bands of the ECoG. Every c...

Slide credit: A. Efros

Erkut Erdem
Edge Detection
Hough Transform
Edge Detection

October 2015

•  A signal is composed of low and high frequency components! low frequency components: smooth /&quo...

Analysis of wave speed for stimulus-induced responses.

Lian Zheng (148007)
Haishan Yao (148011)

July 2012

(A) Distribution of wave speeds for the responses to 4-Hz contrast reversal gratings for all 10 e...

Bias test.

Fausto Lucena (349948)
Allan Kardec Barros (349950)
José C. Príncipe (349951)
Noboru Ohnishi (349952)

February 2013

(A) Partial representation of a population code composed of (decoding) waveforms learned from ICA...

Decay exponent as a function of frequency across participants (error bars denote SEM).

Louise R. Manfredi (333121)
Andrew T. Baker (333122)
Damian O. Elias (203759)
John F. Dammann III (333123)
Mark C. Zielinski (285919)
Vicky S. Polashock (333124)
Sliman J. Bensmaia (253734)

February 2013

The decay exponent is lowest (and so decay is slowest) at around 200–250 Hz, at which Pacinian af...

Frequency selectivity for frequencies below 100 Hz: comparisons with mid-frequencies

Orellana, Carlos Andrés Jurado
Moore, Brian C.J.

December 2010

Auditory filter shapes were derived for signal frequencies (fs) between 50 and 1000 Hz, using the no...

The system bandpass required to avoid distortion of early components when averaging somatosensory evoked potentials

Desmedt, Jean Edouard
Brunko, Eric
Debecker, Julien
Carmeliet, Jacques

January 1974

The effects of 14 filter conditions with cutoff ranging from 3 kc/sec to 50 c/sec and with either 6 ...

Propagation speed as a function of frequency for band-pass noise stimuli, filtered using narrow-band filters, averaged across participants.

Abstract

Extracted data

Propagation speed as a function of frequency for band-pass noise stimuli, filtered using narrow-band filters, averaged across participants.

Abstract

Extracted data

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