I just want to know why voltage is maximum when ventricle is Half depolarized & half repolraized 'peak of R wave & T waves ' or 'bottom of S wave' Shouldn't it be fixed as long as there is a potential difference whether it is half or not??
I've added this info to the project web page under "Testing the bio amp: recording muscle activity (EMG)". There is also a link to the manufacturer's web page.
Hi, it is an amazing demonstration. Can you please suggest how to resolve the electrode movement artifact other than the one you suggested in the video? I am thinking in the direction of filters and for that can you suggest the frequency range of electrode movement artifact
@@BPMbiosignals thank you for your quik response. Does electrode motion artifact have a specific frequency range or is it the same as for muscle motion artifact?
Because the frequency spectra overlap. If you do lowpass filtering (say below 10Hz to get rid of EMG) the heights of the R peaks will be drastically reduced and smeared out. Cable movements are pretty much around 1Hz so basically just there where the ECG fundamental frequency is. Not easy to remove either with a highpass and will only remove very slow cable movements below 1Hz but useless for running/jogging.
@@BPMbiosignals Thanks for the response! I need to try it. Would fast(er) sampling speed, smoothing, lowpass filtering, and percentile normalize work?!
@@userou-ig1ze No. Higher sampling rate has nothing to do with it. As I said above lowpass filtering doesn't work. Smoothing is also just lowpass filtering and doesn't work. Neither percentile normalisation. The best bet is recording a clean ECG in the first place and avoiding artefacts.
Darling, you killing me. As anesthesiologist I found these experiences so thrilling...
Amazing video! Everything is so well explained and the sequence is so logical!
Thank you for explaining that there is a corrective action to remove distortion and that is by repositioning probes
Finally a sensible explanation of lead placement and management. Many thanks!
Thanks for the postive feedback. :) /Bernd
This is awesome! Answers lots of questions that i had (why a notch filter is used at 50/60Hz for example)
Are you also studying some kind of electronic engineering mate?
teaching it .:)
I was looking for something like this for days now, thanks for this AWSOME video
Awesome video! This was exactly what I was looking for!
Many Thanks !!!
Absolutely fantastic video with a lot of doubts cleared, thanks!!
nice demonstration! thanks!
Nice series. Nice and clear to understand ;-)
Awesome, great explanation
Thank you very much for the clear explanations!
thanks! :)
Very useful and also very clear _ Thank you very much _ GOOD WORK 👍
Fantastic information!
This video is amazing, just wondering if INA126 can be replaced for AD620 or INA128/129?
Sure. There won't be any difference. They all do the same thing.
Explicit presentation. How do we avoid artefacts in wearable ECG?
was extremely useful...very well explained....Thanks a lot!!
Beautiful you and your explanation
Really good stuff thank so much
Good information. Thanks.
I just want to know why voltage is maximum when ventricle is Half depolarized & half repolraized 'peak of R wave & T waves ' or 'bottom of S wave'
Shouldn't it be fixed as long as there is a potential difference whether it is half or not??
Awesome video! Very helpful for my exam
Very helpfull......thnx for uploading...
Bery clear thank you
is the 50-60 Hz noise is coming due to ac mains around us or it's due to some muscular movements?
sorry i did'nt get the 1:31 of your video..
I was wondering the same thing. Maybe it comes from ac outlet to which the diferential amplifier that she i wearing is conected.
The AC electrical wiring would create radio interference that would be picked up by the wires of the ecg
Amazing video!
Where can be find the biopotential cables ?
I've added this info to the project web page under "Testing the bio amp: recording muscle activity (EMG)". There is also a link to the manufacturer's web page.
Hi, it is an amazing demonstration. Can you please suggest how to resolve the electrode movement artifact other than the one you suggested in the video? I am thinking in the direction of filters and for that can you suggest the frequency range of electrode movement artifact
It's hard to remove as it overlaps with the ECG frequency. Better you prevent lose cables.
@@BPMbiosignals thank you for your quik response. Does electrode motion artifact have a specific frequency range or is it the same as for muscle motion artifact?
@@sheikhasher9191 Motion artefacts are the motions of your body. How fast do you move? Roughly 0.5Hz - 3Hz so right where the ECG spectrum is.
@@BPMbiosignals I am trying to get a clean ECG while walking and running. I have a clean ECG while being stable.
thank you very much, nice explication :)
That was neat ! Thanks
need to have caster oil before calculating by this kind of elektrodes
not quite sure why all of these issues couldn't be addressed by some lowpass filtering and percentile smoothing. Other than that, great video!
Because the frequency spectra overlap. If you do lowpass filtering (say below 10Hz to get rid of EMG) the heights of the R peaks will be drastically reduced and smeared out. Cable movements are pretty much around 1Hz so basically just there where the ECG fundamental frequency is. Not easy to remove either with a highpass and will only remove very slow cable movements below 1Hz but useless for running/jogging.
@@BPMbiosignals Thanks for the response! I need to try it. Would fast(er) sampling speed, smoothing, lowpass filtering, and percentile normalize work?!
@@userou-ig1ze No. Higher sampling rate has nothing to do with it. As I said above lowpass filtering doesn't work. Smoothing is also just lowpass filtering and doesn't work. Neither percentile normalisation. The best bet is recording a clean ECG in the first place and avoiding artefacts.
Thanks..
Nice
I love it
Nice project baby 😚😽😽❤️
Nicely explained but um more obsessed with the girl... U r amazing 😍😍😍
Our product is to implement this kind of detection function on clothes.
You're very pretty and such a great video
you look just like Mélanie Laurent
.
Drink some water miss.