I was reading an article on the new LG display with a refresh rate of 7680Hz and it says:

While a typical refresh rate for a monitor might be 60Hz-240Hz, an outdoor display designed to be viewed from a distance needs to be much higher

The idea that there’s an intrinsic link between refresh rate and viewing distance is new to me and feels unintuitive. I can understand the need for high brighteness for far view distance. I also could understand refresh rate mattering for a non-persistent (CRT) display. But for an Led display surely you can see it far away even if it refreshes once a second?

Refresh rate normally needs to be high enough to avoid pixels “jumping” between refreshes on high resolution displays, so wouldn’t higher view distances allow you to decrease the refresh rate?

Is the article just spouting bullshit? Or is there an actual link between refresh rate and view distance?

  • @cdf12345
    link
    English
    3510 months ago

    This is really interesting. I work in a casino and I’d say 90% of slot machines are now just video based.

    I’ve noticed when looking a far distance across the gaming floor, slot machines that are physically far away from me appear to have “choppy” reel movement when they spin. As I get closer, they smooth out. It’s really jarring at first and it made me think of video games where things in the far distance are rendered with low resolution models that are replaced with higher resolution models as you get closer.

    Maybe there is something to how we view refresh rates from distance that our eyes just lose frames or something.

    • @cynar
      link
      English
      1410 months ago

      It’s likely peripheral vision vs focal vision, combined with an optical illusion.

      Our eyes are not monolithic, the capabilities vary over the retina. At the center, is a small area of high density, high acuity vision. We actually scan this about rapidly, relying on memory to create a wider image.

      This acuity comes at a trade off however. Moving outwards, our vision moves towards motion and low light vision it also loses colour information. This area is great for spotting something sneaking up on you, but not what. This area is a lot more sensitive to flicker than our core vision.

      In your case, it’s likely 2 fold. You’re seeing most of the games in your peripheral vision, this makes any flicker more pronounced. Secondly, your eyes/brain are trying to scan and absorb too much information (multiple rapidly changing and unpredictable images, spread out over physical space). The illusion your mind creates breaks down. The visual processing areas of your brain can’t fill in the gaps reliably, so your higher mind perceives stuttering. As you move closer, your focus tightens, and things clear up.