Ex-Redditor. I have big autism, big sad-all-the-time, and weird math energy.

Interests

  • extreme metal
  • audio engineering
  • electrical engineering
  • math
  • programming
  • anarchism

Dislikes

  • proprietary software
  • advertisements
  • paywalls
  • capitalism
  • bigotry
  • people who defend the above
  • 5 Posts
  • 52 Comments
Joined 1 year ago
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Cake day: June 17th, 2023

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  • set up shop on an instance

    Don’t do that. You probably should have multiple accounts on different instances. If you really need a continuous, single identity, post links to all your usernames in each.

    This is why the move from Reddit was so difficult for Redditors: because we put all our eggs into Reddit Inc’s basket. All our content is under Reddit’s control. This analysis can be applied to any centralized social media service. If your instance shits the bed or bans itself from everyone else, you can move somewhere else. You can start your own in the worst case. It’s annoying, but at least there is a real path to move on.

    We shouldn’t be putting our eggs in any one basket. We shouldn’t have been doing it before the Fediverse, and we shouldn’t be doing it here either. Your social media access should not be dependent on the goodwill of one person or entity. Eventually, that entity will corrupt.

    Also, I’m on vlemmy.net. Right now, they haven’t defederated from anyone, and I believe we’re still not banned from Beehaw or anyone else. If you really want the whole Fediverse (and you probably don’t), make an account on vlemmy or one of the top three instances on this page.

    Why don’t you have a second account?

    Lazy. Don’t care if my shit gets fucked. But if you do care if your shit gets fucked, then you shouldn’t rely on centralized social media.


  • Yeah. If the signal changed from 0V to +3V, in any way, at any time, then technically it is AC. However, we might treat it as DC for engineering purposes depending on the context. If the system the DC current is going into is stable and responds quickly enough, we can ignore the effect that “starting” the signal will have. However, most non-trivial circuits have non-trivial dynamics, so we need to make sure that, at a bare minimum, they can be started properly.

    Dynamic circuits have, amongst other things, resistances, inductances, and capacitances. Resistors are boring; put in a current I, get back voltage V = IR. Circuits with only resistances are not dynamic. Capacitances and inductances are themselves dynamic elements. For them to exhibit any interesting behavior, the signal (input current or voltage) needs to be changing. Circuits can (but will not necessarily) experience weird behavior when turning on if the power is taken from zero to some voltage too quickly. For example, if a current in an inductor is set from zero to a nonzero constant, you will get a huge (theoretically infinite) spike in voltage. This is because voltage across an inductor is proportional to the rate at which the current signal changes. In the case of a current switched from zero to non-zero, the change from zero to not-zero happens almost instantly, implying a voltage that approaches infinity as the transition becomes steeper. Practically, you get a voltage spike which, when multiplied by current, could generate enough power to blow up whatever you’re working on.

    I didn’t mention this in any of the comments, but real “DC” sources are dirty. Noise is a class of signals that can take on random values at all times. The fact that it can be a different random value at any time implies that noise is a subclass of AC signals. A “pure” source contaminated with noise is colloquially called a “dirty” source.

    Dirty power supplies, the effect of turning the power on and off, and other supply imperfections are why if you look at the power sections of electrical circuit diagrams, you will see capacitors from the supply voltage to ground. The current through a capacitor is directly proportional to the rate of change of the voltage across it. A constant voltage would imply a zero rate of change, so no current is going through the capacitor. Colloquially, it shouldn’t do anything unless there is a disturbance in the circuit.

    Engineers generally expect power supplies to “kinda suck”, even those marked as DC. If there are any other dynamic circuits being powered by the supply (and there almost always are; we want our electronics to actually do things for us!), they will be affected and possibly compromised entirely by a dirty power supply.

    I couldn’t really think of an application where blowing could be treated as a DC signal and talking could be treated as an AC signal. From an electrical engineering position, blowing is a particular subclass of speech signals, for which there is a dearth of literature, all of which hinges on the assumption that speech signals are “AC”, e.g. time-varying.



  • because all of them can also be said of DC electrical current.

    I mean I can’t and wouldn’t force you to think a certain way, but that premise is false, and I thought I demonstrated as such in the previous comment.

    What I can add is that actual “DC current”, e.g. that delivered by a physical, nearly-constant current source that turned on at some point in time and ostensibly will be turned off before the heat death of the universe, does have an AC component! At the very least, it will turn on and off, which is a variation in time. When we design circuits for “DC current” (or voltage), we make the assumption that the AC component is too small to be considered, and thus we just pretend that we have an ideal DC current.

    So when we talk about DC current with any kind of precision, we really mean the constant part of the current waveform equal to the average value of the signal. Blowing as a set of related signals in all it’s media are not constant signals. A recording would demonstrate this, and the requirement for sound to have a nonzero frequency also rules out the possibility for a DC sound.

    Now I know that analogies are loose comparisons, and if your analogy aids your understanding then more power to you, but I genuinely cannot find any way that they are analogous.



  • Yeah, it was and is a lot easier than desktop usage. I am lying in bed right now typing this with my phone while my desktop is playing YouTube videos. I am too lazy to pick up my keyboard and type this out.

    I tried out the Reddit app for a few days during the protests, and it just fucking sucked. It was slow, buggy, and not customizable. Even in dark mode, it was too bright and gaudy for my tastes. And I had to install extra software to disable ads.

    I used RiF, which was a bit like a more mature Jerboa with some features like swipe to hide posts, built-in username switching, saving post/comment drafts, and well-done integrations for embedded images and webpage links. Links I click in Jerboa currently appear in my browser history, whereas RiF opened up its own browser. Hopefully, Jerboa will add a WebView option.

    More importantly, I felt like Rif was text based, as any Reddit client should be. The Reddit app uses icons where RiF would use a text field. As someone who has put in the time to learn how to read, and used that skill continuously for over two decades, it is annoying to have to freshly learn an app’s specific, increasingly abstract icons when we already have the ability to read text.

    I came to Reddit for the in-depth text posts and comments. The meme communities were a nice side thing, but I was really there for the long posts, and to dump long posts of my own.

    IMO, the standard Lemmy web app has more features implemented than Jerboa right now. However, I want to keep my Lemmy/Reddit history separate from my ordinary browsing. For both sites, the app allows my browser not to get cluttered with Reddit links. Jerboa currently opens up a canned tab of one of my browsers, but the browser doesn’t get info about every post I open on Lemmy, so it still does have a great deal of utility.

    IMO Lemmy is really well designed from the ground up. The web app is pretty good, but I would simply rather not use it in my browser if I don’t have to.

    Apparently, Reddit’s app and web interface were additionally inaccessible for blind people to use, so they resorted to 3rd party apps (although I don’t think RiF was one of their typical choices). Reddit has allowed a few select non-commercial accessibility-focused apps to use their API for free, but I think that the status of serving NSFW content to these 3rd party apps is tenuous. The concern was that for all practical purposes, Reddit unilaterally decided that blind people could not interact with NSFW content. Now I just checked /r/gonewild, an established porn sub, and /r/erotic literature, a text-based erotica sub, on RedReader. So far, it is fetching new content for both subs. However, I have not checked any other apps (other than RiF, which is just completely dead) or subs. Anyone with more perspective on the current situation for blind users, please reply.

    Lastly, I didn’t moderate any communities on Reddit, but apparently, moderating through the Reddit app or their modern interface sucked. Somehow, the 3rd party apps had much better tools than Reddit’s own app.

    For me, RiF was the “frontpage of the internet”. I’ll miss it, but Lemmy has given me hope for the future of the internet for basically the first time in my life. Jerboa is currently the primary way that I access Lemmy, so I am rooting for it’s success, as well the other Lemmy apps and Kbin.



  • [Air] being blown out of your mouth is similar to DC ( direct current ) and that it’s a continuous wave of air with frequency zero.

    Nope. You can’t have sound without a vibration. A vibration of zero frequency is constant for all time. When you blow air, you get a bunch of “not-zero” frequency noise from the actual movement of air. Even if you could somehow blow a perfectly DC (0Hz frequency) wave, the fact that you started at some point of time mathematically implies that there are higher frequencies in the signal. [1]

    To convince yourself of this, record an audio clip of yourself blowing into a microphone. Any mic will do, just don’t overload it.[2] Open up the audio file in Audacity, Ardour, or any other audio program that can display waveforms. It will be oscillating quite a bit.

    This also indicates that approximating sound as a constant waveform is not a good engineering decision. As an hobbyist audio programmer and electrical engineering major, it would make my life a lot easier if blowing sounds were constant, because then I could do away with frequency analysis and digital filtering, which is so easy to screw up. We would simply sample the constant audio waveform in whatever medium [3] it is constant.

    [1] I actually had a much more detailed post in mind where I discussed Fourier series, Fourier transforms, and the exact definitions of DC values in electrical engineering, but unfortunately Jerboa ate the comment before I could submit it. Oh well, I can’t be mad since the app is so early in its lifecycle. If you need any help navigating the above pages, feel free to comment. I can also point you to more rigorous references if you need some reading material.

    [2] Really, I mean not to clip any element in the signal chain. All digital audio devices have a maximum loudness. If the signal has a bunch of flat tops, like it was going to keep going higher or lower and then some jerk clipped off the highest and lowest points with scissors, you’ve clipped the signal. This is especially important for blowing because it (intentionally) moves a lot more air than ordinary talking, so try to physically back away from the microphone when you blow. Technically you can damage a microphone by blowing at it, but you probably can’t blow hard enough to blow it. It’s mostly a signal integrity issue.

    [3] I have been using the word “waveform” rather loosely. The sound is physically propagated through space as related waves in pressure and particle velocity. Microphones typically respond to changes in pressure, which is converted into an analog voltage waveform. Now the pressure waveform exists over time, but also over space. Mathematically, this expresses the fact a sound might be louder or quieter depending on where in space you are relative to the sound’s source. If the electrical system is competently designed, the distribution of the voltage in space should be negligible. This expresses the reality that audio distributed through headphones sound the same regardless of where the player is located relative to the headphones, so long as all the wires are connected correctly. Ideally, once you have the pressure at a point, or more realistically an average over a small region of space, the reading is converted to a voltage that is directly proportional to the pressure waveform. In reality, there are going to be some nonlinearities, but the hope is that the waveform is as close to the original as possible under reasonable restrictions on frequency content and signal size, e.g. that the signal isn’t too fast or too big.

    Furthermore, the analog waveform needs to be sampled. This generates a new waveform that only exists at discrete points in time. Then, because computers have a finite number of storage bits, the sampled waveform is quantized, or forced into one of a discrete set of values. This is the digital waveform seen in Audacity or a similar program. Furthermore, your computer has to reverse that process so it can send a voltage signal to the headphones, which finally generates the pressure variations that reach your ears.

    We can use the term “audio waveform” interchangeably for all of these things, including the digital ones, because they carry (approximately; ideally exactly) the same information. This is not some hand-wavy term; information theory posits that the amount of information that a signal carries can be quantified. However, the hand-wavy explanation for it is that all of these waveforms are simply different ways to represent the same thing. For the purposes of classifying signals, sound signals should share common properties despite being in different mediums.