Merged Artificial Intelligence Research: Supermathematics and Physics

[halleyscomet]

How do you know "mordred" has a PhD? Did you simply take it on faith?

Where is Merlin's profile?

Or Lancelot's?

Or King Arthur's?



How about "My Little Pony"?

Careful. You’ll summon Bronies to the thread.

 

[Reality Check]

I maintain,...

Hiding a lie in a spoiler does not address it. Honestly admitting you made a mistake would.
12 October 2017: A lie of "Algebraic Geometry over C∞-rings" is about Euclidean superspaces.

 

[ProgrammingGodJordan]

Do you not have enough confidence in the theory to publish it without first having proven it experimentally? Do you have some sort of moral, ethical or philosophical objection to publishing a purely theoretical paper?

Bengio, a pioneer in Deep Learning can have the leisure of posting papers on major peer reviewed journals, even without any semblance of experimental results. (An example is his recent Consciousness Prior Paper)

I am not a pioneer in machine learning, nor do I have a machine learning degree, so I don't have the same leisure as Bengio.

It occurs to me, the work needed to break your overall theory down into a project that could be executed on a grid computing platform would itself constitute a publishable paper.

You seem to have put yourself in an interesting chicken and egg situation. You’re unwilling to publish a theoretical paper but without a theoretical paper you’re unlikely to get the grants needed to purchase the hardware to do the experiments you want to do. To make progress forward you need either publish a theoretical paper or break down your theory so that it can be run on a grid computing platform.

What is your plan?

That occurrence is wrong...

An initial, albeit substantial degree of the structure to be tested, shall align with the requirements I priorly mentioned here.

 

[halleyscomet]

Bengio, a pioneer in Deep Learning can have the leisure of posting papers on major peer reviewed journals, even without any semblance of experimental results. (An example is his recent Consciousness Prior Paper)



I am not a pioneer in machine learning, nor do I have a machine learning degree, so I don't have the same leisure as Bengio.

Not with that kind of self-defeating attitude.

You’re your own worst enemy.

 

[ProgrammingGodJordan]

Here is Mordred's profile.

Here is one of Mordred's contributions.

Here is one of Mordred's interests.

Recall that I said Mordred deals with cosmology/particle physics. (I didn't mention Mordred had a PHD)

How do you know "mordred" has a PhD? Did you simply take it on faith?
Where is Merlin's profile?
Or Lancelot's?
Or King Arthur's?

How about "My Little Pony"?

What a worthless question.

I've highlighted, emboldened, underlined and coloured a relevant portion for you above.

 

[Reality Check]

Quote page 66 onward from your copy of "Geometric, Algebraic and Topological ..."

It's free for me....

Then it is easy for you to quote page 66, etc with "more C∞(Rn) stuff " so that we do not have to guess at it being ignorance or a lie
12 October 2017: Quote page 66 onward from your copy of Geometric, Algebraic and Topological Methods for Quantum Field Theory.
We need to see in that quote "C∞(Rn)" and that this is a Euclidean superspace (the other half of your assertion).

 

[ProgrammingGodJordan]

Not with that kind of self-defeating attitude.

You’re your own worst enemy.

Not "self-defeating", but reality instead.

Even though my paper goes beyond papers like Bengio's by presenting a way to consider experimentation for the structure I propose to begin with, I will cannot submit on arXiv. (Its not a bad system though, as this barrier allows the reviewers to focus on papers likely to contribute well)

One needs to get recommended by somebody with a sufficient amount of papers on arXiv, before even getting the chance to submit.

One good way to get recommendation, is to show benefits over existing paradigms, in some experimental way.

 

[halleyscomet]

Not "self-defeating", but reality instead.



Even though my paper goes beyond papers like Bengio's by presenting a way to consider experimentation for the structure I propose to begin with, I will cannot submit on arXiv. (Its not a bad system though, as this barrier allows the reviewers to focus on papers likely to contribute well)



One needs to get recommended by somebody with a sufficient amount of papers on arXiv, before even getting the chance to submit.



One good way to get recommendation, is to show benefits over existing paradigms, in some experimental way.

So you’re giving up on peer review publication because one venue is not likely to accept you?

This is another reason to rework it so you can list these luminaries you keep mentioning as Co-authors. Then they can submit the paper.

 

[ProgrammingGodJordan]

Then it is easy for you to quote page 66, etc with "more C∞(Rn) stuff " so that we do not have to guess at it being ignorance or a lie
12 October 2017: Quote page 66 onward from your copy of Geometric, Algebraic and Topological Methods for Quantum Field Theory.
We need to see in that quote "C∞(Rn)" and that this is a Euclidean superspace (the other half of your assertion).

Why bother, to expend energies there, when a prior quote of mine (as seen below) already supports my expressions?

12 October 2017: A lie of "Algebraic Geometry over C∞-rings" is about Euclidean superspaces.
There is not one "superspace" in it! Iy may be a lie that the paper contains C∞(Rn) stuff unless he provides a exact citation. ProgrammingGodJordan?

[IMGw=160]https://i.imgur.com/MrxleHs.jpg[/IMGw]

The C^∞(Rⁿ) stuff here, is concerned with Superalgebras, as you will see by referring to Reference 13 from the text.

Reading page 4 and onwards, you see that reference 13 (or referenced author "Carchedi") ties with Superalgebras or differentiable C^∞ structures, in the neighbourhood of supersymmetry or superspace.

 

[ProgrammingGodJordan]

So you’re giving up on peer review publication because one venue is not likely to accept you?

This is another reason to rework it so you can list these luminaries you keep mentioning as Co-authors. Then they can submit the paper.

That's a good idea.

Of course, that is what I am working on, as I mentioned prior to now, in a related comment here.

 

[Reality Check]

Covers a bit of of the same stuff as the existing Genius Edward Witten, could he help to intensify artificial intelligence research? thread.

Physicists in general do not need to study consciousness. There is little need to study consciousness in order to measure the current through a wire!
Some physicists think about whether consciousness has a role in physics.

Ditto for AI. Some physicists research AI and may use tools from physics to do so, e.g. want to use quantum computers. Most physicists do not need to study AI because it has no relevance to their research.

It is irrelevant that manifolds are "central to physics and mathematics".

One paper using the word manifold two times in the context of data does not make the manifolds from math or physics "quite prevalent" anywhere in AI.
Disentangling factors of variation in deep representations using adversarial training

interpolation: to evaluate the coverage of the data manifold, we generated a sequence of images by linearly interpolating the codes of two given test images (for both specified and unspecified representations);

Thus, 3(b) shows a reasonable coverage of the manifold with some abrupt changes.

Plus the reference

[24] Scott Reed, Kihyuk Sohn, Yuting Zhang, and Honglak Lee. Learning to disentangle factors of variation with manifold interaction. In Proceedings of the 31st International Conference on Machine Learning (ICML-14), pages 1431–1439, 2014.

Simply put: Those physicists who need or want to to study consciousness or AI, are studying consciousness or AI.

 

[ProgrammingGodJordan]

Physicists in general do not need to study consciousness.

Max Tegmark, probably has a better grasp than you on this topic, and as Max Tegmark expressed in a youtube video here, physicists have long neglected to define the observer in much of the equations. (The observer being the intelligent agent)

 

[ProgrammingGodJordan]

There is little need to study consciousness in order to measure the current through a wire!

I don't know if how current flows through a wire can help to describe the conscious observer.

Some physicists think about whether consciousness has a role in physics.

Ditto for AI. Some physicists research AI and may use tools from physics to do so, e.g. want to use quantum computers. Most physicists do not need to study AI because it has no relevance to their research.

Redundant, if you actually watched Tegmark's video, you would quickly find out that he is encouraging his physicist colleagues to study consciousness, so this means not surprisingly, that whether consciousness has a role in physics is questionable, particularly, among physicists. (especially his physicist colleagues)
However, some common sense tells that if you think about it logically, consciousness, that is the mechanism which allows the observer to achieve complex goals in a general learning manner, i.e. general intelligence, is reasonably nothing but some information driven process, bounded by the laws of physics, and thereafter, not surprisingly applicable in physics...

 

[ProgrammingGodJordan]

It is irrelevant that manifolds are "central to physics and mathematics".

One paper using the word manifold two times in the context of data does not make the manifolds from math or physics "quite prevalent" anywhere in AI.
Disentangling factors of variation in deep representations using adversarial training

[IMGw=260]https://i.imgur.com/MrxleHs.jpg[/IMGw]

That paper was merely a sample from much work being done regarding manifolds.

Here is a tip. When you see "disentangling factors" in relation to machine learning you are in the world of manifold learning.


Early Visual Concept Learning with Unsupervised Deep Learning, (June 2016)

Exponential expressivity in deep neural networks through transient chaos, (June 2016)

Disentangling factors of variation in deep representations using adversarial training, (November 2016)

...


Footnote:

[IMGw=400]https://i.imgur.com/58zzIPo.png[/IMGw]

It is not "irrelevant" that manifolds are central to physics and mathematics.
That physicists may work with these things, is quite relevant if they are to utilize this properties to study consciousness/artificial general intelligence.

Manifolds may afford models degrees of freedom (learning position, scale, size, etc), in temporal difference scenarios.

Edited by Loss Leader: 

Edited IMG tags to IMGW. Overly large images are disruptive.

 

[ProgrammingGodJordan]

Simply put: Those physicists who need or want to to study consciousness or AI, are studying consciousness or AI.

Yes, what you express above may likely be simply, but crucially, wrongly put.

[IMGw=160]https://i.imgur.com/KjmpRRu.png[/IMGw]

As Max Tegmark expressed in a youtube video here, physicists have long neglected to define the observer in much of the equations, and he particularly refers to the instance that not analyzing consciousness may be a giant obstacle in the aims of further non trivially unraveling the laws of physics.

 

[John Jones]

This thread concerns a discussion about why physicists need to study consciousness, and probably involve themselves in the development of artificial general intelligence.

[...]

I'm not taking your word for it or anything else due to your inferior command of English. Can you think of any reason why I should?

 

[ProgrammingGodJordan]

I'm not taking your word for it or anything else due to your inferior command of English. Can you think of any reason I should?

[IMGw=260]https://i.imgur.com/4fCD9XZ.jpg[/IMGw]

Odd, I don't have these long standing English debates with people of high intellect, such as Bengio or people who deal with cosmology/particle physics.

Anyway, take a look at Max's video here, or buzz off instead, your choice.

Listen to his words, and ignore mine if you shall so desire.


Footnote:
The word "huh" or no response at all, shall be relegated to any further discussions about English of yours.

 

[Reality Check]

I don't know if how....

Nothing relevant to my post.

 

[Reality Check]

Max Tegmark...

An argument from a cheery picked opinion is not correct..

 

[Reality Check]

Cite the definition of disentangling factors that states that it always has manifolds

...inane image, etc. snipped...
That paper was merely a sample from much work being done regarding manifolds.

Read my post again. That was an irrelevant paper because there were no manifolds from math or physics in it, just a "data manifold".

Checked the next paper and you are wasting everyone's time - no mention of manifolds and an unsupported assertion:
12 October 2017: Cite the definition of disentangling factors that states that it always has math or physics manifolds in it.

ETA:
A thing being central to field A does not automatically make it central to another field. Physicists may work with the statistics of bosons and fermions so:
12 October 2017: Cite the use of Fermi or Bose statistics "to study consciousness/artificial general intelligence" !