Mastodon normalizer: Difference between revisions

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== Normalization ==
== Normalization ==
If one topic or author is much more prolific than another, then the louder channel will tend to draw more attention.  The problem is often framed as "signal to noise", but we're looking at something more nuanced which we can call "volume vs. balance" because the content might not contain any useless noise but is simply showing too much of one thing and not enough of another.
If one topic or author is much more prolific than another, then the louder channel will tend to draw more attention.  The problem is often framed as "signal to noise", but that's a more accurate term for filtering spam.  Here we're looking at something more nuanced which we'll call "loudness normalization".


In audio engineering, the same problem exists when one loud instrument drowns out another softer sound.  The standard solution is to normalize the audio, bringing the average or peak loudness of all instruments to the same level.  These normalized tracks will also be mixed together to fine-tune the loudness of each instrument.
In audio engineering one loud instrument can often drown out another softer sound.  The standard approach to fix this is to normalize the audio, bringing the average loudness of all instruments to the same level.


As social media readers, we're instinctively aware that each channel has differing relative volumes, and we adapt according to various strategies: muting the spammiest accounts, automatic filtering, skimming aggressively, and so on.  (It's also interesting that these strategies have audio analogies: mixing channels, noise filtering and fast-forwarding, respectively.)
As social media readers, we're instinctively aware that each voice has its own style, conciseness and frequency of posting.  We might naturally gravitate towards the bright colors, loud text, frequent posters, and to push back we protect our attention through various strategies: muting the spammiest accounts, automatic filtering, skimming aggressively, and so on.  (It's also interesting that these strategies have audio analogies: multitrack mixing, noise reduction and fast-forwarding, respectively.)


@futurebird's suggestion is implemented in my demo as the "Check in" mode, and it will show exactly one recent post from each account you've subscribed to.
The basic normalization suggested by @futurebird is implemented in my demo as the "Check in" mode, and it works by showing exactly one recent post from each account you've subscribed to.


== Dimensionality ==
== Dimensionality ==
Playing with the "check in" mode, it succeeds in leveling channels so that everyone gets an equal chance to be seen, however it's a painfully narrow viewport, like watching a concert through an arrowslit.  How can we cross the strengths of a chronological timeline with the breadth of multiple channels, while still normalizing channel loudness? An obvious interpretation is that the two dimensions can be shown at right angles in a two-dimensional view.  In my demo this is called "Orthogonal" mode, in which you can scroll channels vertically and then read individual timelines by scrolling horizontally.
Playing with the "check in" mode I found that it successfully levels out authors so that everyone gets an equal chance to be seen, however the limitation of one recent post 's a painfully narrow viewport, like watching an orchestra through an arrowslit.  How can we cross the broad perspective of multiple, leveled channels with the known strengths of a chronological timeline and its potential to tell a story?
 
One obvious visualization is to put the two dimensions at right angles to one another, so a two-dimensional view.  In my demo this is called "Orthogonal" mode and you can scroll between authors vertically, then read individual timelines by scrolling horizontally. Let me know what you think, dear reader!


== Customization ==
== Customization ==
Like in a fairy tale, these experiments have satisfied the programming "rule of three" and I'm ready to collapse the different feed styles down into something that can be generalized.  As a first step, I'll turn the parameters into visual knobs that can be seen and adjusted by the user.  
Like in a fairy tale, these three experiments—I'm including classic "timeline" with only the time dimension and no normalization—have also satisfied the programming "rule of three" and <ref>Current project status: working on the thing right here in the sentence.</ref>I'm ready to collapse the different feed styles down into something that can be generalized.  As a first step, I'll turn the parameters into visual knobs that can be seen and adjusted by the user.  


In the long term, the algorithm should be fully flexible and visually-programmable, and there would be a library for sharing your algorithms with others.  
In the long term, the algorithm should be fully flexible and visually-programmable, and there would be a library for sharing your algorithms with others.  
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* [https://terhech.de/ebou/ Ebou by Benedikt Terhechte] ([https://github.com/terhechte/Ebou source code]) shows a timeline with a single card for each user, and clicking on a user expands their timeline into a new column.  Looks very active as of August 2023.
* [https://terhech.de/ebou/ Ebou by Benedikt Terhechte] ([https://github.com/terhechte/Ebou source code]) shows a timeline with a single card for each user, and clicking on a user expands their timeline into a new column.  Looks very active as of August 2023.
== Notes ==
<references />

Revision as of 20:31, 29 August 2023

Project link (beta):
https://normalizer.webflux.us/

My introduction to "undirected search" was two brief but eventful years working for Jibril Jackson's startup HYVE, which made me aware of Dunbar's number, the limits of how much attention we can pay our friends, and how social media tilts the scales so that the loudest voice is heard most.

When @futurebird@sauropods.win mentioned the fun idea of a customizable timeline as something that comes up regularly in discussions about improving Mastodon, I recognized the perennial problem and decided to give a whack at the solution so that we can see what it looks like. I'm happy with the results so far! You can try the demo using a Mastodon from anywhere, and the tool acts as a web client letting you browse your own account through a simple set of lenses.

If you like the idea, please feel free to borrow the code or reimplement it on your preferred platform.

Normalization

If one topic or author is much more prolific than another, then the louder channel will tend to draw more attention. The problem is often framed as "signal to noise", but that's a more accurate term for filtering spam. Here we're looking at something more nuanced which we'll call "loudness normalization".

In audio engineering one loud instrument can often drown out another softer sound. The standard approach to fix this is to normalize the audio, bringing the average loudness of all instruments to the same level.

As social media readers, we're instinctively aware that each voice has its own style, conciseness and frequency of posting. We might naturally gravitate towards the bright colors, loud text, frequent posters, and to push back we protect our attention through various strategies: muting the spammiest accounts, automatic filtering, skimming aggressively, and so on. (It's also interesting that these strategies have audio analogies: multitrack mixing, noise reduction and fast-forwarding, respectively.)

The basic normalization suggested by @futurebird is implemented in my demo as the "Check in" mode, and it works by showing exactly one recent post from each account you've subscribed to.

Dimensionality

Playing with the "check in" mode I found that it successfully levels out authors so that everyone gets an equal chance to be seen, however the limitation of one recent post 's a painfully narrow viewport, like watching an orchestra through an arrowslit. How can we cross the broad perspective of multiple, leveled channels with the known strengths of a chronological timeline and its potential to tell a story?

One obvious visualization is to put the two dimensions at right angles to one another, so a two-dimensional view. In my demo this is called "Orthogonal" mode and you can scroll between authors vertically, then read individual timelines by scrolling horizontally. Let me know what you think, dear reader!

Customization

Like in a fairy tale, these three experiments—I'm including classic "timeline" with only the time dimension and no normalization—have also satisfied the programming "rule of three" and [1]I'm ready to collapse the different feed styles down into something that can be generalized. As a first step, I'll turn the parameters into visual knobs that can be seen and adjusted by the user.

In the long term, the algorithm should be fully flexible and visually-programmable, and there would be a library for sharing your algorithms with others.

Similar projects

  • Ebou by Benedikt Terhechte (source code) shows a timeline with a single card for each user, and clicking on a user expands their timeline into a new column. Looks very active as of August 2023.

Notes

  1. Current project status: working on the thing right here in the sentence.