From Norman Doidge's book "The Brain That Changes Itself", I learned that:
Long term white noise exposure might be associated with hearing loss, especially age-related. The theory was that "nerves that fire together, wire together", too much white noise compared to clear sounds will cause the neural mapping for sounds to gradually become fuzzier, making distinctions between sounds will become harder.
"However, a recent study in the JAMA Journal of Otolaryngology–Head & Neck Surgery states that white noise’s lack of structure can worsen tinnitus symptoms. The study researchers also suggest that white noise could possibly “accelerate the ageing of the brain” and increase the risk for dementia"
Anecdotal, but white noise sends my tinnitus wild. If the white noise is loud enough, you won't necessarily hear the change until it's turned off, but after that my ears are positively screaming.
Same is true of other kinds of background noise, such as computer fans, air conditioners or driving in a car. A while ago, based on some self study, I tried to 'fix' my tinnitus by targeting it with specific frequencies rather than noise, and that provided temporary relief by actually reducing the perception of the tinnitus briefly (like 5 minutes). But white noise has always increased it.
I'm skeptical about generalizing those results to more "natural" sounds like fan noise. As others have mentioned true white noise is very unnatural due to its uniform power spectrum. Pink and brown noise though seem more natural due to the dampening at higher frequencies, and I'd bet things like fan noise, rainfall, waterfall, etc. lie somewhere along the 1/f^alpha for alpha > 1 (in between pink and brown).
I'm sure that we've evolved to handle things like noisy nights (thunder, rainfall) and living near rivers. You probably don't want to go beyond 50db though.
But to be on the safe side I'm going to turn by fan one notch down (40db -> 30db) to be on the safe side.
Nature sounds like rainfall & ocean waves vary a lot I imagine, with lots of breaks and pauses, the lack of a continuous sound probably helps.
A fan that's rotating back and forth might produce neurologically better sounds, as the breeze bounces off different parts of the room than one that is fixed in one direction?
Actually hm I just tried a hearing test at https://hearingtest.online (very well done site, read the sidebar notes) and I seem to have a characteristic 4khz dip. I don't listen to music with headphones and have never gone to concerts, perhaps the years of fan noise at night did indeed contribute to this.
On the subject of hearing loss, can I plug my idea again that all devices should have a "constantly gradually decrease volume" option? It's way to easy to turn up a device for a temporary reason and then an hour later you realize the sound has been way too loud for a long time.
I would rather push a button to turn up the volume twice an hour than realize I've been damaging my hearing for the last hour for something I'm barely paying attention too. Especially for music, if I notice the volume decreasing, I can turn it up, and if I don't notice, then just let a fade to nothing since I'm not paying attention apparently.
Must every article on HN about some positive discovery around noise, hearing, and tinnitus always be followed with a top comment about how everything we think about these things is wrong, and everything we’re doing is damaging our hearing and/or making our tinnitus worse?
I’ve been sleeping with Marpac sound machines for years, partly due to tinnitus but also partly just to help with sleep, only to find out it’s probably damaging my hearing and/or making my tinnitus worse.
Can someone please post some positive news about hearing/tinnitus?
This is seriously the second link in like 3 days.
Maybe I should just never click any HN article hearing related.
It can take a long time for conflicting theories to resolve in neuroscience. For example, the existence of adult neurogenesis in humans is still hotly debated despite at least a decade or two of papers on both sides. Meanwhile, it has already been accepted as a fact by the news media, and has begun to appear in self help books as evidence of the ability to 're-wire the brain'.
So, enjoy your sound machine. I'm sure bad sleep is probably implicated in hearing loss, too. Or at least it will be once the right grad student reads this comment.
"nerves that fire together, wire together" - ha, that's quite a profound statement. I've been thinking recently how we manage to hear harmonics as one sound without preexisting algorithms in our brain to detect them, and this is probably the answer. Edit. This also means we hear sounds differently. Someone who listens much to classical music hears harmonics really well, but someone who listens to sounds with different aharmonic structure, will learn to hear those aharmonic patterns as highly musical.
So there are 16,000 neurons in the ear that perform something like FFT with 16k bins over a 100ms sliding time frame. Now imagine there is a 2nd layer where each neuron is watching the corresponding neuron in the 1st layer and when that one fires, it looks up what other neurons are firing at the same time. This correlation event is recorded somewhere inside the neuron. After listening to lots of sounds, the 2nd layer neuron will notice a simple pattern: when its frequency fires, neurons corresponding to 2x, 3x, etc. frequencies also fire. As a result, the 2nd layer neuron fires upon seeing a harmonic pattern.
Why does someone that listens to classical hear harmonics (I'm still not sure whether you mean tonal harmonies or harmonics aka timbre) better than someone who doesn't?
Sure, maybe they'd be better at picking out a bassoon in the mix than a metal fan, and a metal fan might be able to tell the difference between a Jackson guitar and a ESP guitar than the classical fan, but that's just due to familiarity, not their overall sense of hearing.
I don't think any serious musician would agree with you whether you're talking harmony or harmonics. However, listening to music in general will definitely allow you to hear different harmonic intervals better than if you didn't, but this is again just due to familiarity/ear training and doesn't overlap into your overall ability to hear.
We just use mnemonics. For example, Amen = 4th twinkle twinkle = 5th NBC = 6th etc.
Hearing is a process that extends from your ear all the way through your brain. The hard line you think exists between “hear” and “familiarity” or “ear training” doesn’t exist. The last few years I’ve been spending around Vietnamese, and while I still speak relatively little of it, I’ve been able to slowly adjust to be able to separate out sounds and words that previously sounded like one big mess.
And that's something completely different. Language and music use similar parts of the brain, but you're just mashing audio perception together in a way that just isn't related and is not what the article is talking about.
You’re being overly strict in defining a general word, in a way that worsens understanding.
We aren’t computers with parts. There isn’t a microphone connected to a DSP, there’s a neural net on every level from signal processing up to whole experience.
When someone says “hear” they mean almost all of that pipeline, not just the mic quality.
Picking out a bassoon in the mix is hearing better, at the level that matters.
White noise is insidious. There was this one team that sat in an area with lots of white noise. They seemed to like it - said it helped them focus. Now they all have hearing deficits.
Not necessarily a fan of white noise but I’d take white noise over unsubstantiated claims from a Popsci book any day. Those things are chokefull of un reveiwed conjecture that has no place in a book or anywhere else except the authors brain where all they should be is hypotheses.
I got into it because of tinnitus, and used it to sleep, but eventually started using it when working. Years ago in menlo park, with headphones on and white/brown noise drowning out the world. I likened it sensory deprivation, as nothing rises above the noise floor and it can fade away from your attention.
I found that earplugs + headphones with brown/grey noise absolutely made the universe go away. I don't use it now because my work has changed and I work in a single-person office, but I found this super effective at reducing distractions.
"we tested the hypothesis that auditory white noise, when presented during the encoding of scene images, enhances subsequent recognition memory performance and modulates activity within the dopaminergic midbrain"
Important highlight is that primary task (of remembering images) did not use (or need to use) auditory sense.
He's pretty good for sure, but he's a little too excitable on some topics and makes some leaps. I know he's done this on some of his exercise science episodes, for instance, with his discussion of cold therapy.
I'd take white noise over distracting background noises (i.e., roommates, coffee shops) in a heartbeat. The point isn't to enjoy the sound per se, it's to block distractions.
But yes, I do prefer brown noise over white noise by a wide margin.
But then why choose such a horrible sound to drown out the background? Why not something easier on the ear? Personally I find the noise so jarring and intolerable I'd be more distracted by it (even on a low volume) than whatever irritating noises I'm hearing in the background.
Well that's your feeling and that's fine. But I'm okay with both white and brown noise, don't feel it's jarring. In fact, any other kind if noise distracts me
"Like" is the wrong word. Silence is best, but if there are lots of auditory distractions in your environment then white noise drowns them out pretty well and just fades into a background hum for me.
The issue that I suffer from is that there is no such thing as silence. Even the sound of my breathing can be triggering, and the quietest of quiet keyboards will still set me off.
When I code I use white noise, or pink noise, but it's run through a low pass filter to trim off the harsh high ends.
I'll also add a slight comb filter then modulate the frequency with a slow LFO (around .05 hz) to give it some movement. Some extra processing then happens like a compressor to even it out a bit and add warmth.
It's quite effective, especially for noisy environments.
At least for me, it's not listened to with the same volume you'd normally use for music or speech; white noise at that volume would definitely be awful. It's meant as barely perceptible background noise.
I use a non-looping white/brown noise machine to help me sleep at night and it works wonders in the city.
One thing I've wondered is the health effects of listening to that noise at ~ 40db all night over all these years. OSHA says that anything under ~ 80db is safe for 8h, but I do wonder if there are any longer term impacts to hearing or audio processing for softer sounds played over a lifetime. I could easily see the brain adapting and 'ignoring' noise in that spectrum. For now, I simply consider the extra sleep I get to be worth the price.
Not OP but I use one called LectroFan. They also have a small travel-sized one that doubles as a bluetooth speaker. It has revolutionized my ability to sleep while traveling.
I have the same make. I really like the lower range noise for blocking out stuff. I didn't notice any sort of bluthooth speaker ability. I might have to RTFM. That'd be useful.
Possibly the same reason why people like to listen to music while working? The essential feature common to white noise and music you're familiar with could be the predictability. I know for me a good song (uptempo, not too distracting) can help me block out the outside world and make me feel very productive.
I do the same with Scandavian music like Wadruna and then whatever youtube throws at me. No idea what they are saying but it's a nice melodic music that doesn't distract me and no worries about the song getting stuck in my head.
There are many genres of electronic music and only some are dance-oriented. If you want to check them out, try non-vocal playlists on https://www.di.fm/playlists or on YouTube or Spotify.
Same with me, the music I normally like distracts me while I work. To fix it I open up a youtube tab with a "cafe sounds" loop running (while also playing my music). Then it sounds like there's some nice music playing somewhere in the distance but I can't make it out. I also open up a "train sound" loop, which really dials in my focus.
It's a bit of a cacophony, but it got me through grad school!
The lofi hiphop (aka lofi girl) radio station on YouTube is another example of non-distracting music. It's there, but not something that draws attention.
Doodling improves memory retention / learning, too. IDK how much difference the content of a doodle makes? Hypothesis: Additional "cognitive landmarky" content in the doodle or received waveforms would increase retention up to a limit.
" IDK how much difference the content of a doodle makes?"
I'm a doodler. I also make art. And you are right, the cognitive load of the doodle makes a difference. My 'learning doodles' are really a mindless endeavor, and they only realistically look arty because I have been making art for decades now. The actual content of the doodle matters little. The real point is more keeping the hands busy and the mind lightly engaged with something else - I suppose it is akin to listening to a podcast while walking or driving.
I can get something similar from taking notes, but even that is better if I have doodle space since I don't need to write everything down.
Regarding doodling, it seems that any active productive study method is at least somewhat beneficial. I've found this in my own personal experiments. For example, testing myself with cloze deletions, creating Anki cards, generating mind maps, Cornell notes, inline annotation/marginalia, doodling, generating questions, generating mnemonics, mind palaces, etc.
Another non-intuitive method that is helping me a lot is pacing around my house slowly while I read. It goes to show that cognition is an embodied phenomenon. It's unintuitive when intelligence is viewed from the traditional split mind/body paradigm but just take a look at an image of our nervous systems. Those wires to and from our brain and guts wrap around every part of us.
Awesome. Thanks for the resources. Coincidentally, I stumbled on this research today on the effect of exercise + meditation on word recall: https://hpp.tbzmed.ac.ir/PDF/hpp-9-314.pdf
I prefer soft 8D audio for concentration/work-mode on alexa speaker.
If I'm anxious - more upbeat sounds and pop/rock songs like Linkin Park or Imagine Dragons, w/ headphones.
Closing your eyes is needed and just follow the music as it makes you feel a little dizzy. I never understood 'ASMR' until I found this music thing, really feels trippy. Helps a lot w/ my autism/ADHD.
There are several instances that I know about of machine learning / signal processing methods ( for example empirical mode decomposition) that purposely inject noise into the algorithm to improve accuracy / fidelity / independence. I'm sure that others here can provide better examples than I.
Noise in general helps in several area in my life:
- Working out, pump up music for motivation.
- Cleaning or chores, enjoyable music or podcasts for motivation or filling space.
- Light, shallow work, lo-fi to upbeat chill without vocals for motivation and masking environmental noise.
- Deep, concentrated work, white or pink noise for masking environmental noise. Depending on the task, I will opt for silence.
To further explain white or pink noise use benefits in my case, they provide subtle stimulation and are minor distractions if I concentrate on them. However, the utility gained from masking environmental noise exceeds the utility loss in the rare moments that I shift focus to the white or pink noise, so I think it's a net positive for me.
I enjoy some noise, like fan, AC, but get auditory hallucinations from most ‘noise generators’ (apps). I start to hear voices, orchestras tuning etc. Very strange and distracting. I’m thinking it’s my mind trying to make sense of all the random frequencies? Any tips to counter this? ( I could record my fan and play that... in a loooooong loop ;)
This happens to me when listening to a white noise app / machine that has a short loop. You can buy machines that are explicitly non-looping and it's so much better.
Most of these that I've encountered are webapps and they loop/crossfade a white noise sample rather than synthesize it. I don't think looping is the issue here though. I get the same voice-like auditory hallucinations even when playing with an analog white noise source in my analog synthesizers. A static square wave without any other sounds also causes them for me.
Most of these machines are 'multi-function' machines that play crickets / waterfalls, etc in addition to white noise. That sound is best handled by capturing a snippet and looping it over and over again. The same applies for white noise as well unfortunately.
Also it's usually a good idea to buy a little machine for this that uses like 5W vs running your computer all night.
It's crazy they loop, it just takes one transistor in avalanche mode to create white noise. Maybe I should mod my Bose Sleep buds that have ridiculously bad sound quality and short loops (and battery life).
It's easy electronically but if you're writing an app for a device/OS that doesn't implement that capability and expose it to apps you're left with either pseudorandom numbers or a sample. A very long losslessly compressed sample can be good but would require a large download, so in practice these apps generally have short, lossily compressed samples. These samples (and the alternative, pseudorandom numbers) sound absolutely awful. A human mind on the verge of sleep is an insanely powerful signal processing device and recogniser/producer/completer of patterns.
Raspberry Pis have hardware random number generators. I use one to generate smoothed brown noise for sleep. It's blissful.
I've been meaning to get round to solving this problem on phones, making an app that can, without a ridiculously large download, generate really high quality sleep noise. I have some ideas but it's not an easy problem.
> A human mind on the verge of sleep is an insanely powerful signal processing device and recogniser/producer/completer of patterns.
This resonates with my feelings. Hardware pseudo random noise is something i'd like to try, but I'm not sure my partner is so keen on it, how to deliver the sound in a discrete and non-intrusive way?
White noise is horrible to listen to. Brown noise is where it's at. Exponentially smoothed for the connoiseurs, get that soft rumble going.
White noise is an equal mix of all frequencies. It's what you get from radio static. It's hissy and nasty.
Brown noise is the sound of things being randomly bumped around (Brownian motion). It's what you get from waterfalls and thunder. It's smooth and delicious.
Amusingly, I initially thought this was deep learning related, where if you augment your training set by adding white noise to each sample, then your trained NN will be more robust.
From what I understand, later controlled studies do not seem to back the claim that specific frequency differences lead the brain to an alpha state, or theta state etc. as claimed. But there may be potential in reducing anxiety:
R Padmanabhan 1, A J Hildreth, D Laws. "A prospective, randomised, controlled study examining binaural beat audio and pre-operative anxiety in patients undergoing general anaesthesia for day case surgery", Anaesthesia, 2005.
Sure. Thinking that frequencies picked up by your ears has any sort of 1:1 correspondence or influence with the irrelevant overall firing frequency distribution of your brain is like thinking that adjusting the speed of your washing machine to an integer harmonic of 440hz helps keep your piano in tune.
Any music can stimulate the release of dopamine and I would argue that white noise would be on the lower end of that comparison. Plus, the amount of dopamine released from listening to music or white noise would be trivial compared to drugs, alcohol, binge eating, nicotine, video games, or binge-watching TV. And, the tricky thing about addictions is that they're easier to replace than to simply stop, so it's important to find a healthier replacement and then try to taper the newer behavior. I don't see white noise helping directly with addictions because of how imbalanced they are as stimulation sources.
Long term white noise exposure might be associated with hearing loss, especially age-related. The theory was that "nerves that fire together, wire together", too much white noise compared to clear sounds will cause the neural mapping for sounds to gradually become fuzzier, making distinctions between sounds will become harder.