#ecog — Public Fediverse posts
Live and recent posts from across the Fediverse tagged #ecog, aggregated by home.social.
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https://www.europesays.com/ro/106343/ Noua Dacia a fost dezvăluită aproape total în presa franceză. „O premieră pentru Dacia”. Producția începe la Mioveni chiar anul acesta VIDEO #Afaceri #Break #Business #dacia #DaciaCNeo #DaciaSpacer #EcoG #hibrid #Hybrid155 #ModelCompact #PiataAuto #RO #Română #Romania #Romanian
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Nghiên cứu cho thấy kích thích điện qua điện cực ECoG có thể điều chỉnh hoạt động não và xử lý cảm giác ở chuột thức. Kích thích điện ban đầu kích hoạt nơ-ron L2/3, sau đó ức chế kéo dài vài giây. #ECoG #NãoBộ #KhoaHọc #Neuroscience #BrainStimulation #SensoryProcessing
https://www.reddit.com/r/singularity/comments/1okxib4/stimulation_with_ecog_electrodes_modulates/
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Neuroscientists and electrophysiologists of Mastodon, what would your top choice analysis tool be for a novice getting started with working with ECoG data? I have a graduate student I will be co-mentoring starting this Fall who is very bright but has no programming experience, and I'd like to help her get up and running as quickly as possible. I've generally been a roll-my-own-analyses type of electrophysiologist so I don't have a favorite framework to get her started with. I know EEGLAB is popular, but my main experience with it has been helping other people get their Matlab path working properly again after something in EEGLAB clobbers it. I've played with MNE in Python but it doesn't seem to be as purely-GUI as EEGLAB and I don't want her to get bogged down in learning Python before she can do any analyses at all.
So, what's your favorite tool for ECoG analysis? What would you recommend a student who's starting from zero background in electrophysiology or programming begin to learn in 2024?
Boosts for reach appreciated. I also just like hearing folks' opinionated takes on their research tools.
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Neuroscientists and electrophysiologists of Mastodon, what would your top choice analysis tool be for a novice getting started with working with ECoG data? I have a graduate student I will be co-mentoring starting this Fall who is very bright but has no programming experience, and I'd like to help her get up and running as quickly as possible. I've generally been a roll-my-own-analyses type of electrophysiologist so I don't have a favorite framework to get her started with. I know EEGLAB is popular, but my main experience with it has been helping other people get their Matlab path working properly again after something in EEGLAB clobbers it. I've played with MNE in Python but it doesn't seem to be as purely-GUI as EEGLAB and I don't want her to get bogged down in learning Python before she can do any analyses at all.
So, what's your favorite tool for ECoG analysis? What would you recommend a student who's starting from zero background in electrophysiology or programming begin to learn in 2024?
Boosts for reach appreciated. I also just like hearing folks' opinionated takes on their research tools.
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Neuroscientists and electrophysiologists of Mastodon, what would your top choice analysis tool be for a novice getting started with working with ECoG data? I have a graduate student I will be co-mentoring starting this Fall who is very bright but has no programming experience, and I'd like to help her get up and running as quickly as possible. I've generally been a roll-my-own-analyses type of electrophysiologist so I don't have a favorite framework to get her started with. I know EEGLAB is popular, but my main experience with it has been helping other people get their Matlab path working properly again after something in EEGLAB clobbers it. I've played with MNE in Python but it doesn't seem to be as purely-GUI as EEGLAB and I don't want her to get bogged down in learning Python before she can do any analyses at all.
So, what's your favorite tool for ECoG analysis? What would you recommend a student who's starting from zero background in electrophysiology or programming begin to learn in 2024?
Boosts for reach appreciated. I also just like hearing folks' opinionated takes on their research tools.
-
Neuroscientists and electrophysiologists of Mastodon, what would your top choice analysis tool be for a novice getting started with working with ECoG data? I have a graduate student I will be co-mentoring starting this Fall who is very bright but has no programming experience, and I'd like to help her get up and running as quickly as possible. I've generally been a roll-my-own-analyses type of electrophysiologist so I don't have a favorite framework to get her started with. I know EEGLAB is popular, but my main experience with it has been helping other people get their Matlab path working properly again after something in EEGLAB clobbers it. I've played with MNE in Python but it doesn't seem to be as purely-GUI as EEGLAB and I don't want her to get bogged down in learning Python before she can do any analyses at all.
So, what's your favorite tool for ECoG analysis? What would you recommend a student who's starting from zero background in electrophysiology or programming begin to learn in 2024?
Boosts for reach appreciated. I also just like hearing folks' opinionated takes on their research tools.
-
Neuroscientists and electrophysiologists of Mastodon, what would your top choice analysis tool be for a novice getting started with working with ECoG data? I have a graduate student I will be co-mentoring starting this Fall who is very bright but has no programming experience, and I'd like to help her get up and running as quickly as possible. I've generally been a roll-my-own-analyses type of electrophysiologist so I don't have a favorite framework to get her started with. I know EEGLAB is popular, but my main experience with it has been helping other people get their Matlab path working properly again after something in EEGLAB clobbers it. I've played with MNE in Python but it doesn't seem to be as purely-GUI as EEGLAB and I don't want her to get bogged down in learning Python before she can do any analyses at all.
So, what's your favorite tool for ECoG analysis? What would you recommend a student who's starting from zero background in electrophysiology or programming begin to learn in 2024?
Boosts for reach appreciated. I also just like hearing folks' opinionated takes on their research tools.
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#brain stuff: "Generalizable spelling using a speech neuroprosthesis in an individual with severe limb and vocal paralysis"
An implant converts brain signals into text. Restoring communication for those with #paralysis.
Paper: https://www.nature.com/articles/s41467-022-33611-3 -
#brain stuff: "Generalizable spelling using a speech neuroprosthesis in an individual with severe limb and vocal paralysis"
An implant converts brain signals into text. Restoring communication for those with #paralysis.
Paper: https://www.nature.com/articles/s41467-022-33611-3 -
#brain stuff: "Generalizable spelling using a speech neuroprosthesis in an individual with severe limb and vocal paralysis"
An implant converts brain signals into text. Restoring communication for those with #paralysis.
Paper: https://www.nature.com/articles/s41467-022-33611-3 -
#brain stuff: "Generalizable spelling using a speech neuroprosthesis in an individual with severe limb and vocal paralysis"
An implant converts brain signals into text. Restoring communication for those with #paralysis.
Paper: https://www.nature.com/articles/s41467-022-33611-3 -
#brain stuff: "Generalizable spelling using a speech neuroprosthesis in an individual with severe limb and vocal paralysis"
An implant converts brain signals into text. Restoring communication for those with #paralysis.
Paper: https://www.nature.com/articles/s41467-022-33611-3 -
People let a startup put a brain implant in their skulls - for 15 minutes https://www.wired.com/story/precision-neuroscience-brain-implant/ on Precision Neuroscience https://precisionneuro.io; non-penetrating electrodes, but the device penetrates the #dura, #BCI #NeuroTech #ECoG
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People let a startup put a brain implant in their skulls - for 15 minutes https://www.wired.com/story/precision-neuroscience-brain-implant/ on Precision Neuroscience https://precisionneuro.io; non-penetrating electrodes, but the device penetrates the #dura, #BCI #NeuroTech #ECoG
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People let a startup put a brain implant in their skulls - for 15 minutes https://www.wired.com/story/precision-neuroscience-brain-implant/ on Precision Neuroscience https://precisionneuro.io; non-penetrating electrodes, but the device penetrates the #dura, #BCI #NeuroTech #ECoG
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People let a startup put a brain implant in their skulls - for 15 minutes https://www.wired.com/story/precision-neuroscience-brain-implant/ on Precision Neuroscience https://precisionneuro.io; non-penetrating electrodes, but the device penetrates the #dura, #BCI #NeuroTech #ECoG
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People let a startup put a brain implant in their skulls - for 15 minutes https://www.wired.com/story/precision-neuroscience-brain-implant/ on Precision Neuroscience https://precisionneuro.io; non-penetrating electrodes, but the device penetrates the #dura, #BCI #NeuroTech #ECoG
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The amazing @Moatazassem has arrived on Mastodon!
Moataz does super cool work on task-active #brain regions using #fMRI and #ECoG, especially high-res HCP methods. Moataz also has a new #preprint out on the basis of executive functions in fine-grained architecture of cortical and subcortical human brain networks:
https://www.biorxiv.org/content/10.1101/2022.12.01.518720v1 -
The amazing @Moatazassem has arrived on Mastodon!
Moataz does super cool work on task-active #brain regions using #fMRI and #ECoG, especially high-res HCP methods. Moataz also has a new #preprint out on the basis of executive functions in fine-grained architecture of cortical and subcortical human brain networks:
https://www.biorxiv.org/content/10.1101/2022.12.01.518720v1 -
The amazing @Moatazassem has arrived on Mastodon!
Moataz does super cool work on task-active #brain regions using #fMRI and #ECoG, especially high-res HCP methods. Moataz also has a new #preprint out on the basis of executive functions in fine-grained architecture of cortical and subcortical human brain networks:
https://www.biorxiv.org/content/10.1101/2022.12.01.518720v1 -
The amazing @Moatazassem has arrived on Mastodon!
Moataz does super cool work on task-active #brain regions using #fMRI and #ECoG, especially high-res HCP methods. Moataz also has a new #preprint out on the basis of executive functions in fine-grained architecture of cortical and subcortical human brain networks:
https://www.biorxiv.org/content/10.1101/2022.12.01.518720v1 -
The amazing @Moatazassem has arrived on Mastodon!
Moataz does super cool work on task-active #brain regions using #fMRI and #ECoG, especially high-res HCP methods. Moataz also has a new #preprint out on the basis of executive functions in fine-grained architecture of cortical and subcortical human brain networks:
https://www.biorxiv.org/content/10.1101/2022.12.01.518720v1 -
... We demonstrate this adaptable pipeline approach by comparing the #SlowWave dynamics across multiple #OpenAccess #ECoG and #CalciumImaging datasets of anesthetized mice. In this meta-analysis, we can identify the influences of experimental parameters such as the anesthetic type and dosage and the spatial resolution of the recording technique.
The pipeline development is #opensource (#Python) and is already being reused for other research applications. ...
2/3 -
... We demonstrate this adaptable pipeline approach by comparing the #SlowWave dynamics across multiple #OpenAccess #ECoG and #CalciumImaging datasets of anesthetized mice. In this meta-analysis, we can identify the influences of experimental parameters such as the anesthetic type and dosage and the spatial resolution of the recording technique.
The pipeline development is #opensource (#Python) and is already being reused for other research applications. ...
2/3 -
... We demonstrate this adaptable pipeline approach by comparing the #SlowWave dynamics across multiple #OpenAccess #ECoG and #CalciumImaging datasets of anesthetized mice. In this meta-analysis, we can identify the influences of experimental parameters such as the anesthetic type and dosage and the spatial resolution of the recording technique.
The pipeline development is #opensource (#Python) and is already being reused for other research applications. ...
2/3 -
... We demonstrate this adaptable pipeline approach by comparing the #SlowWave dynamics across multiple #OpenAccess #ECoG and #CalciumImaging datasets of anesthetized mice. In this meta-analysis, we can identify the influences of experimental parameters such as the anesthetic type and dosage and the spatial resolution of the recording technique.
The pipeline development is #opensource (#Python) and is already being reused for other research applications. ...
2/3 -
... We demonstrate this adaptable pipeline approach by comparing the #SlowWave dynamics across multiple #OpenAccess #ECoG and #CalciumImaging datasets of anesthetized mice. In this meta-analysis, we can identify the influences of experimental parameters such as the anesthetic type and dosage and the spatial resolution of the recording technique.
The pipeline development is #opensource (#Python) and is already being reused for other research applications. ...
2/3 -
Bionic man!! The potential utility of #bci. #eeg #ecog #neurotech #neuroscience http://www.engadget.com/2015/10/20/paralyzed-man-arms-wireless-spinal-cord/
Paralyzed man regains use of a... -
Bionic man!! The potential utility of #bci. #eeg #ecog #neurotech #neuroscience http://www.engadget.com/2015/10/20/paralyzed-man-arms-wireless-spinal-cord/
Paralyzed man regains use of a... -
Bionic man!! The potential utility of #bci. #eeg #ecog #neurotech #neuroscience http://www.engadget.com/2015/10/20/paralyzed-man-arms-wireless-spinal-cord/
Paralyzed man regains use of a... -
Bionic man!! The potential utility of #bci. #eeg #ecog #neurotech #neuroscience http://www.engadget.com/2015/10/20/paralyzed-man-arms-wireless-spinal-cord/
Paralyzed man regains use of a... -
Bionic man!! The potential utility of #bci. #eeg #ecog #neurotech #neuroscience http://www.engadget.com/2015/10/20/paralyzed-man-arms-wireless-spinal-cord/
Paralyzed man regains use of a...