Machine Learning (ML) vs. Artificial Intelligence (AI)βCrucial Differences
Last Updated on May 11, 2022 by Editorial Team
Unfortunately, some tech organizations are deceiving customers by proclaiming to use machine learning (ML) and artificial intelligence (AI) on their technologies while not being clear about their productsβ limits.
Recently, a report was released regarding the misuse of companies claiming to use artificial intelligence [29] [30] on their products and services. According to the Verge [29], 40% of European startups claiming to use AI donβt use the technology. Last year, TechTalks, also stumbled upon such misuse by companies claiming to use machine learning and advanced artificial intelligence to gather and examine thousands of usersβ data to enhance user experience in their products and services [2] [33].
Unfortunately, thereβs still much confusion among the public and the media regarding what genuinely is artificial intelligence [44] and what exactly is machine learning [18]. Often the terms are being used as synonyms. In other cases, these are being used as discrete, parallel advancements, while others are taking advantage of the trend to create hype and excitement to increase sales and revenue [2] [31] [32] [45].
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Below we go through some main differences between AI and machine learning.
What is machine learning?
Quoting Interim Dean at the School of Computer Science at CMU, Professor and Former Chair of the Machine Learning Department at Carnegie Mellon University, Tom M. Mitchell:
A scientific field is best defined by the central question it studies. The field of Machine Learning seeks to answer the question:
βHow can we build computer systems that automatically improve with experience, and what
are the fundamental laws that govern all learning processes? [1]β
Machine learning (ML) is a branch of artificial intelligence, and as defined by Computer Scientist and machine learning pioneer [19] Tom M. Mitchell: βMachine learning is the study of computer algorithms that allow computer programs to automatically improve through experience.β [18]βββML is one of the ways we expect to achieve AI. Machine learning relies on working with small to large datasets by examining and comparing the data to find common patterns and explore nuances.
For instance, if you provide a machine learning model with many songs that you enjoy, along with their corresponding audio statistics (dance-ability, instrumentality, tempo, or genre). Then, it oughts to be able to automate (depending on the supervised machine learning model used) and generate a recommender system [43] as to suggest you with music in the future that (with a high percentage of probability rate) youβll enjoy, similarly as to what Netflix, Spotify, and other companies do [20] [21] [22].
In a simple example, if you load a machine learning program with a considerable large dataset of x-ray pictures along with their description (symptoms, items to consider, and others), it oughts to have the capacity to assist (or perhaps automatize) the data analysis of x-ray pictures later on. The machine learning model looks at each picture in the diverse dataset and finds common patterns found in pictures with labels with comparable indications. Furthermore, (assuming that we use an acceptable ML algorithm for images), when you load the model with new pictures, it compares its parameters with the examples it has gathered before to disclose how likely the pictures contain any of the indications it has analyzed previously.
The type of machine learning from our previous example, called βsupervised learning,β where supervised learning algorithms try to model relationships and dependencies between the target prediction output and the input features, such that we can predict the output values for new data based on those relationships, which it has learned from previous datasets [15] fed.
Unsupervised learning, another type of machine learning, is the family of machine learning algorithms, which have main uses in pattern detection and descriptive modeling. These algorithms do not have output categories or labels on the data (the model trains with unlabeled data).
Reinforcement learning, the third popular type of machine learning, aims at using observations gathered from the interaction with its environment to take actions that would maximize the reward or minimize the risk. In this case, the reinforcement learning algorithm (called the agent) continuously learns from its environment using iteration. A great example of reinforcement learning is computers reaching a super-human state and beating humans on computer games [3].
Machine learning can be dazzling, particularly its advanced sub-branches, i.e., deep learning and the various types of neural networks. In any case, it is βmagicβ (Computational Learning Theory) [16], regardless of whether the public, at times, has issues observing its internal workings. While some tend to compare deep learning and neural networks to the way the human brain works, there are essential differences between the two [2] [4] [46].
What is Artificial Intelligence (AI)?
Artificial intelligence, on the other hand, is vast in scope. According to Andrew Moore [6] [36] [47], Former-Dean of the School of Computer Science at Carnegie Mellon University, βArtificial intelligence is the science and engineering of making computers behave in ways that, until recently, we thought required human intelligence.β
That is a great way to define AI in a single sentence; however, it still shows how broad and vague the field is. Fifty years ago, a chess-playing program was considered a form of AI [34] since game theory and game strategies were capabilities that only a human brain could perform. Nowadays, a chess game is dull and antiquated since it is part of almost every computerβs operating system (OS) [35]; therefore, βuntil recentlyβ is something that progresses with time [36].
Assistant Professor and Researcher at CMU Zachary Lipton clarifies on Approximately Correct [7], the term AI βis aspirational, a moving target based on those capabilities that humans possess but which machines do not.β AI also includes a considerable measure of technology advances that we know. Machine learning is only one of them. Prior works of AI utilized different techniques. For instance, Deep Blue, the AI that defeated the worldβs chess champion in 1997, used a method called tree search algorithms [8] to evaluate millions of moves at every turn [2] [37] [52] [53].
As we know it today, AI is symbolized with Human-AI interaction gadgets by Google Home, Siri, and Alexa, by the machine-learning-powered video prediction systems that power Netflix, Amazon, and YouTube. These technological advancements are progressively becoming essential in our daily lives. They are intelligent assistants who enhance our abilities as humans and professionalsβββmaking us more productive.
In contrast to machine learning, AI is a moving target [51], and its definition changes as its related technological advancements turn out to be further developed [7]. Possibly, within a few decades, todayβs innovative AI advancements ought to be considered as dull as flip-phones are to us right now.
Why do tech companies tend to use AI and ML interchangeably?
The term βartificial intelligenceβ came to inception in 1956 by a group of researchers, including Allen Newell and Herbert A. Simon [9]. Since then, AIβs industry has gone through many fluctuations. In the early decades, there was much hype surrounding the industry, and many scientists concurred that human-level AI was just around the corner. However, undelivered assertions caused a general disenchantment with the industry along with the public and led to the AI winter, a period where funding and interest in the field subsided considerably [2] [38] [39] [48].
Afterward, organizations attempted to separate themselves from the term AI, which had become synonymous with unsubstantiated hype and used different names to refer to their work. For instance, IBM described Deep Blue as a supercomputer and explicitly stated that it did not use artificial intelligence [10], while it did [23].
During this period, various other terms, such as big data, predictive analytics, and machine learning, started gaining traction and popularity [40]. In 2012, machine learning, deep learning, and neural networks made great strides and found use in a growing number of fields. Organizations suddenly started to use the terms βmachine learningβ and βdeep learningβ for advertising their products [41].
Deep learning began to perform tasks that were impossible to do with classic rule-based programming. Fields such as speech and face recognition, image classification, and natural language processing, which were at early stages, suddenly took great leaps [2] [24] [49], and in March 2019βthree of the most recognized deep learning pioneers won a Turing award thanks to their contributions and breakthroughs that have made deep neural networks a critical component to nowadays computing [42].
Hence, to the momentum, we see a gearshift back to AI. For those who are used to the limits of old-fashioned software, the effects of deep learning almost seemed like βmagicβ [16]. Especially since a fraction of the fields that neural networks and deep learning are entering were considered off-limits for computers, and nowadays, machine learning and deep learning engineers are earning high-level salaries, even when they are working at non-profit organizations, which speaks to how hot the field is [50] [11].
Sadly, this is something that media companies often report without profound examination and frequently go along with AI articles with pictures of crystal balls and other supernatural portrayals. Such deception helps those companies generate hype around their offerings [27]. Yet, down the road, as they fail to meet the expectations, these organizations are forced to hire humans to make up for their so-called AI [12]. In the end, they might end up causing mistrust in the field and trigger another AI winter for the sake of short-term gains [2] [28].
I am always open to feedback, please share in the comments if you see something that may need revisited. Thank you forΒ reading!
Acknowledgments:
The author would like to extensively thank Ben Dickson, Software Engineer and Tech Blogger, for his kindness to allow me to rely on his expertise and storytelling, along with several members of the AI Community for the immense support and constructive criticism in preparation of this article.
DISCLAIMER: The views expressed in this article are those of the author(s) and do not represent the views of Carnegie Mellon University nor other companies (directly or indirectly) associated with the author(s). These writings do not intend to be final products but rather a reflection of current thinking and a catalyst for discussion and improvement.
Resources
Introduction to Machine Learning | Matt Gormley | School of Computer Science, Carnegie Mellon University | http://www.cs.cmu.edu/~mgormley/courses/10601/
AI for Everyone | Andrew Ng | Coursera | https://www.coursera.org/learn/ai-for-everyone
Machine Learning Course | Google | https://developers.google.com/machine-learning/crash-course/
Intro to Machine Learning | Udacity | https://www.udacity.com/course/intro-to-machine-learningβud120
Machine Learning Training | Amazon Web Services | https://aws.amazon.com/training/learning-paths/machine-learning/
Introduction to Machine Learning | Coursera | https://www.coursera.org/learn/machine-learning
References:
[1] The Discipline of Machine learning | Tom M. Mitchell | http://www.cs.cmu.edu/~tom/pubs/MachineLearning.pdf
[2] Why the difference between AI and machine learning matters | Ben Dickson | TechTalks | https://bdtechtalks.com/2018/10/08/artificial-intelligence-vs-machine-learning/
[3] Types of Machine Learning Algorithms You Should Know | David Fumo | Towards Data Science | https://towardsdatascience.com/types-of-machine-learning-algorithms-you-should-know-953a08248861
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