The video you linked uses 2D metaballs. When metaballs clump together, they form blobs, not larger circles. Are you okay with that?
You should read an intro to metaballs before continuing. Just google 2D metaballs.
So, hopefully you've read about metaball threshold values and falloff functions. Your falloff function should have a radius--a distance at which the function falls to zero.
We can achieve an LOD effect by tuning the threshold and the radius. Basically, as you zoom out, increase radius so that points have influence over a larger area and start to clump together. Also, adjust threshold so that areas with insufficient density of points start to disappear.
I found this existing jsfiddle 2D metaballs demo and I've modified it to showcase LOD:
- LOD 0: Individual points as circles. (http://jsfiddle.net/TscNZ/370/)
- LOD 1: Isolated points start to shrink, but clusters of points start to form blobs. (http://jsfiddle.net/TscNZ/374/)
- LOD 2: Isolated points have disappeared. Blobs are fewer and larger. (change above URL to jsfiddle revision 377)
- LOD 3: Blobs are even fewer and even larger. (change above URL to jsfiddle revision 380)
As you can see in the different jsfiddle revisions, changing LOD just requires tuning a few variables:
threshold = 1,
max_alpha = 1,
point_radius = 10,
A crucial point that many metaballs articles don't touch on: you need to use a convention where only values above your threshold are considered "inside" the metaball. Then, when zoomed far out, you need to set your threshold value above the peak value of your falloff function. This will cause an isolated point to disappear completely, leaving only clumps visible.
Rendering metaballs is a whole topic in itself. This jsfiddle demo takes a very inefficient brute-force approach, but there's also the more efficient "marching squares".