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| ▲ | javawizard a day ago | parent | next [-] |
| Plenty of sources suggest it is: https://github.com/giladoved/webcam-heart-rate-monitor https://medium.com/dev-genius/remote-heart-rate-detection-us... The Reddit comments on that second one have examples of people doing it with low quality webcams: https://www.reddit.com/r/programming/comments/llnv93/remote_... It's honestly amazing that this is doable. |
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| ▲ | zamadatix a day ago | parent [-] | | My dumb ass sat there for a good bit looking at the example in the first link thinking "How does a 30-60 Hz webcam have enough samples per cycle to know it's 77 BPM?". Then it finally clicked in my head beats per minute are indeed not to be conflated with beats per second... :). Non-paywalled version of the second link https://archive.is/NeBzJ | | |
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| ▲ | 3eb7988a1663 21 hours ago | parent | prev | next [-] |
| MIT was able to reconstruct voice by filming a bag of chips on a 60FPS camera. I would hesitate to say how much information can leak through. https://news.mit.edu/2014/algorithm-recovers-speech-from-vib... |
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| ▲ | hinkley 9 hours ago | parent [-] | | I befriended the guy in high school who built a Tesla coil. For his next trick he was building a laser to read sound off of plate glass. The decoder was basically an AM radio. Which high school me found slightly disappointing. | | |
| ▲ | bcrl 4 hours ago | parent [-] | | I basically asked my math and physics teachers in high school what the Fourier transform was, but none of them knew how to answer my questions (which were about digital signal processing -- modems were important things to us back in the early '90s). If I had to do it over again, I would have audited the local university's electrical engineering and math courses in evenings. The first time MIT ran 6002x online back in 2012, the course finally answered a lot of those questions when touching upon filters and bandwidth. | | |
| ▲ | hedgehog 2 hours ago | parent [-] | | Yeah I wish I had known about or had access to that stuff when I was a kid. To really learn and internalize ideas like negative frequency early would have been quite fun. |
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| ▲ | hedgehog a day ago | parent | prev | next [-] |
| It is, I've done it live on a laptop and via the front camera of a phone. I actually wrote this thing twice, once in Swift a few years back, and then again in Python more recently because I wanted to remember the details of how to do it. Since a few people seem surprised this is feasible maybe it's worth posting the code somewhere. |
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| ▲ | jpablo a day ago | parent | prev | next [-] |
| You will be surprised of The Unreasonable Effectiveness of opencv.calcOpticalFlowPyrLK |
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| ▲ | neckro23 12 hours ago | parent | prev | next [-] |
| Sure it is. Smart watches even do it using the simplest possible “camera” (an LED). |
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| ▲ | rcxdude a day ago | parent | prev | next [-] |
| It is, but there's a lot of noise on top of it (in fact, the noise is kind of necessary to avoid it being 'flattened out' and disappearing). The fact that it covers a lot pixels and is relatively low bandwidth is what allows for this kind of magic trick. |
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| ▲ | slow_typist 21 hours ago | parent [-] | | The frequency resolution must be pretty bad though. You need 1 minute of samples for a resolution of 1/60 Hz. Hopefully the heartrate is staying constant during that minute. |
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| ▲ | zipy124 17 hours ago | parent | prev | next [-] |
| It totally is. Look for motion-magnification in the literature for the start of the field, and then remote PPG for more recent work. |
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| ▲ | hahahahhaah a day ago | parent | prev | next [-] |
| I have seen apps that use the principle for HRV. Finger pushed on phone cam. |
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| ▲ | moralestapia a day ago | parent | prev | next [-] |
| You can do it with infrared and webcams see some of it, but I'm not sure if they're sensitive enough for that. |
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| ▲ | vaenaes a day ago | parent | prev [-] |
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