Matt is live streaming regularly

Live now, just chatting. Will be doing BHTMS soon enough.

Live research now.

Great stream again, Matt. Thanks for broadcasting these, Numenta! (Why not thousands of people are following these is beyond me).

Some musings about this session:

  • The process of compensating for orientation must happen before grid cell processing (as opposed to paralel processing in a separate layer). Otherwise the grid patterns produced (and observed by the experiments) would not be fixed as the subject turns around in the box. This means that the orientation information is already contained in the grid cell modules (I think @jhawkins also briefly speculated about this). This also means a feature associated to a displacement cell is also connected and referenced orientationally to any other feature.

  • The hexagonal (or triangular) pattern of the grid cells is not a constraint. It’s just an observation. Navigation in a space would work in any constellation as long as it remains fixed when the subject moves. So, if a grid cell pattern is deformed in a non-flat environment (e.g. the jungle gym rat experiment @mrcslws mentioned), then the subject would still be able to model its environment.

2 Likes

Streaming BHTMS now.

Two streams today:

  • 10:10AM research meeting
  • 7PM Meetup

I am not streaming today, but tomorrow I’ll be busy:

What time zone are you in Matt? I’d love to be involved if possible

2 Likes

Pacific daylight savings time.

1 Like

Live now, talking about Rework AI Summit.

Today’s stream:

  • ReWork AI Summit Day Two Recap
  • HTM Forum Q&A (if I have time)
  • Research Meeting (?)
  • BHTMS - Finish up SP learning and start Active Duty Cycles
2 Likes

Thanks Matt for your recent encouraging thoughts on the Intelligence Design Lab model. You surprised me on this one, I needed to catch up on:

The code is in VB6 only. I would love to port to another language but due to VB6 not having bit operators I had to use math to extract bits from Byte and Long variables. It’s best to rewrite the whole thing, in another language most suited for 3 axis arrays, which gets into many hexagonal math systems, while math I used might be improved upon, so it quickly became increasingly complicated.

Since it looks like you only need the easy trick to drawing vector maps (and I’m not sure what is best in other languages for hexagonal arrays) the code most importantly only needs to propagate a 2D wave. The way I most simply did it is make 6 Inputs and 6 Outputs of each hexagonal network “place” a six bit value, in which case the rule to apply to each nonzero place during each timestep is negate the input, to derive output.

Out6 = 63 - In6

When you keep setting and resetting all six places of a place you get a continuous wave, and it will look like radio station broadcasting outward from an antenna.

In the first timestep all six outputs of a place are set to 1, to send action potentials outward in all directions. In the next timestep the six neighboring places send action potentials further outward, but not back to the places that started the wave. You then have a nice clean signal pattern where places alternate back and forth when most pointing at an in-between angle, to average together for 12 direction sensitivity, from 6 signals. This is where there is an on average 7/12=58% signal ratio as noted in live rat signal ratios.

The fun part is then what happens after mapping out an environment using places that (do nothing therefore) adsorb for places to not bump into and avoid, or for echolocation (Out6=In6) reflect, then a wave is started by a place where what it needs is located (or like a bat from itself in which case wave may reflect back). Summing wave direction at each place makes a vector map to follow. After (repropagating) clearing the arrays the shortest distance would be the first waves to make it to the place the critter is located.

The only thing this cortical level navigation network needs to supply to the motor system is an angle for Left/Right to point towards, and for controlling high speed landing or stop a Forward/Reverse magnitude that depends on distance from place center. Rounding off places to a dead center for landing/stopping causes the map to shift a little each time feeder moves to a new place. To an animal the distances between places only need to be approximate, while once there it’s convenient to perceive an exact center, and in code needs one or else perceives the food to be somewhere else. Following waves from place to place through a network leads to a place that has an exact wave center, so it’s something that’s in the math and physics to for navigational purposes make the best of by remapping accordingly.

Most of my problem is not knowing where to begin. So I thought I should explain how it’s first a matter of (however you would most simply represent a cortical sheet) propagate a 2D radio/traveling wave. For you it might take minutes to paste something together. I can easily adapt to whatever you would use for language and code.

1 Like

I am not feeling well today, so cancelling my live stream. Sorry folks, especially @bitking. Maybe we can talk about fully connected networks as a part of our next HTM Hackers’ Hangout in one week?

Bummer dude. take care of yourself and apply the energy to getting well.
Hackers hangout it is.
Assuming that it is Friday.

2 Likes

Thank you for being a sympathetic good sport. Yes, Friday, I’ll post about it soon.

1 Like

The silver lining is that tonight I would have missed it, but next week I’ll be able to attend.

I’m looking forward to dynamic duo M&M. (Matt and Mark).

Get well soon, Matt. Have a nice weekend all of you.

The not-so-silver lining is that I did NOT take this Friday (the 5th) off as I the 4th is this week. If I take 2 days off I fall behind in my workload and it starts to suck.
@rhyolight How do you feel about putting if off yet again?

1 Like

Today I am NOT streaming on twitch, but YouTube!

This is a test. I’ll be streaming the research meeting as well in about 30 minutes.

3 Likes

How can we connect? Is there a link to click? Did I miss it?

Edit: Oh, you guys got the link through twitter? I’m not on Twitter.
Please post the link to the research meeting stream in here. I don’t want to miss it. :-).

Edit 2: Thanks!

Live now.

1 Like

live now just chatting https://www.twitch.tv/rhyolight_