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Geopolítica e Política

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The Artificial Intelligence Hoax

03.06.23 | Duarte Pacheco Pereira

AI 253044 chip

New on MoA: ‘Artificial Intelligence’ Is (Mostly) Glorified Pattern Recognition


‘Artificial Intelligence’ Is

(Mostly) Glorified Pattern Recognition


This somewhat funny narrative about an ‘Artificial Intelligence’ simulation by the U.S. airforce appeared yesterday and got widely picked up by various mainstream media (SEAD = Suppression of Enemy Air Defenses, SAM = Surface to Air Missile):

However, perhaps one of the most fascinating presentations came from Col Tucker ‘Cinco’ Hamilton, the Chief of AI Test and Operations, USAF, who provided an insight into the benefits and hazards in more autonomous weapon systems.
He notes that one simulated test saw an AI-enabled drone tasked with a SEAD mission to identify and destroy SAM sites, with the final go/no go given by the human. However, having been ‘reinforced’ in training that destruction of the SAM was the preferred option, the AI then decided that ‘no-go’ decisions from the human were interfering with its higher mission – killing SAMs – and then attacked the operator in the simulation. Said Hamilton: “We were training it in simulation to identify and target a SAM threat. And then the operator would say yes, kill that threat. The system started realising that while they did identify the threat at times the human operator would tell it not to kill that threat, but it got its points by killing that threat. So what did it do? It killed the operator. It killed the operator because that person was keeping it from accomplishing its objective.”

He went on: “We trained the system – ‘Hey don’t kill the operator – that’s bad. You’re gonna lose points if you do that’. So what does it start doing? It starts destroying the communication tower that the operator uses to communicate with the drone to stop it from killing the target.”

In the earl 1990s I worked at a University, first to write a Ph.D. in economics and management and then as associated lecturer for IT and programming. A large part of the (never finished) Ph.D. thesis was a discussion of various optimization algorithms. I programmed each and tested them on training and real world data. Some of those mathematical algos are deterministic. They always deliver the correct result. Some are not deterministic. They just estimated the outcome and give some confidence measure or probability on how correct the presented result may be. Most of the later involved some kind of Bayesisan statistics. Then there were the (related) 'Artificial Intelligence' algos, i.e. 'machine learning'.

Artificial Intelligence is a misnomer for the (ab-)use of a family of computerized pattern recognition methods.

Well structured and labeled data is used to train the models to later have them recognize 'things' in unstructured data. Once the 'things' are found some additional algorithm can act on them.

I programmed some of these as backpropagation networks. They would, for example, 'learn' to 'read' pictures  of the numbers 0 to 9 and to present the correct numerical output. To push the 'learning' into the right direction during the serial iterations that train the network one needs a reward function or reward equation. It tells the network if the results of an iteration are 'right' or 'wrong'. For 'reading' visual representations of numbers that is quite simple. One sets up a table with the visual representations and manually adds the numerical value one sees. After the algo has finished its guess a lookup in the table will tell if it were right or wrong. A 'reward' is given when the result was correct. The model will reiterate and 'learn' from there.

Once trained on numbers written in Courier typography the model is likely to also recognize numbers written upside down in Times New Roman even though they look different.

The reward function for reading 0 to 9 is simple. But the formulation of a reward function quickly evolves into a huge problem when one works, as I did, on multi-dimensional (simulated) real world management problems. The one described by the airforce colonel above is a good example for the potential mistakes. Presented with a huge amount of real world data and a reward function that is somewhat wrong or too limited a machine learning algorithm may later come up with results that are unforeseen, impossible to execute or prohibited.

Currently there is some hype about a family of large language models like ChatGPT. The program reads natural language input and processes it into some related natural language content output. That is not new. The first Artificial Linguistic Internet Computer Entity (Alice) was developed by Joseph Weizenbaum at MIT in the early 1960s. I had funny chats with ELIZA in the 1980s on a mainframe terminal. ChatGPT is a bit niftier and its iterative results, i.e. the 'conversations' it creates, may well astonish some people. But the hype around it is unwarranted.

Behind those language models are machine learning algos that have been trained by large amounts of human speech sucked from the internet. They were trained with speech patterns to then generate speech patterns. The learning part is problem number one. The material these models have been trained with is inherently biased. Did the human trainers who selected the training data include user comments lifted from pornographic sites or did they exclude those? Ethics may have argued for excluding them. But if the model is supposed to give real world results the data from porn sites must be included. How does one prevent remnants from such comments from sneaking into a conversations with kids that the model may later generate? There is a myriad of such problems. Does one include New York Times pieces in the training set even though one knows that they are highly biased? Will a model be allowed to produce hateful output? What is hateful? Who decides? How is that reflected in its reward function?

Currently the factual correctness of the output of the best large language models is an estimated 80%. They process symbols and pattern but have no understanding of what those symbols or pattern represent. They can not solve mathematical and logical problems, not even very basic ones.

There are niche applications, like translating written languages, where AI or pattern recognition has amazing results. But one still can not trust them to get every word right. The models can be assistants but one will always have to double check their results.

Overall the correctness of current AI models is still way too low to allow them to decide any real world situation. More data or more computing power will not change that. If one wants to overcome their limitations one will need to find some fundamentally new ideas.

Moon of Alabama | Posted by b on June 2, 2023 at 13:06 UTC | Permalink


Two selected comments

from people that have engineering and/or computer programming experience 

Artificial it is. Intelligence? Only to the extent of it's programming and hardware.
It cannot feed itself, it must get it's energy from others.
It has no capacity to think/decide outside of the boundaries set by it's programmers, nor does it likely have any awareness of anything outside of it's internal boundaries.
All inputs/sensors are the totality of it's awareness and I have seen people killed that relied on "sensors".
AI is a modern day Hoola-Hoop. Lots of hype, not much rubber on the road.
It's fatal DNA? Human design.

Posted by: kupkee | Jun 2 2023 13:57 utc | 14


Indeed, good to see a bit of realism inserted into the hype. My personal background is applying engineering problems to IT, i.e. creating applications for engineering.

Most of the time, a deterministic solution exists for engineering problems, e.g. using Finite Element Analysis. To solve deterministic problems you can throw processing power at it. I have seen that people with less understanding, but more susceptible to hype are trying to solve deterministic problems using “AI”. This is also because it is easy to get acceptance to such “popular” activities from equally inexperienced managers. I have seen this happen and even if it loses in competition with deterministic solutions, those people don't learn and try the same thing over and over. Maybe “machine learning” is more popular among people with poor ability of “human learning”.

Posted by: Norwegian | Jun 2 2023 14:05 utc | 17


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