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Learning Machine Learning, Part 3: Application

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14 Feb 2017CPOL14 min read 13.9K   21  
This post features a basic introduction to machine learning (ML). You don’t need any prior knowledge about ML to get the best out of this article. Before getting started, let’s address this question: "Is ML so important that I really need to read this post?"

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Machine Learning Applications

After introducing Machine Learning and discussing the various techniques used to deliver its capabilities, let’s move on to its applications in related fields: big data, artificial intelligence (AI), and deep thinking.

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Big Data

Before 2010, Machine Learning applications played a significant role in specific fields, such as license plate recognition, cyber-attack prevention, and handwritten character recognition. After 2010, a significant number of Machine Learning applications were coupled with big data which then provided the optimal environment for Machine Learning applications.

The magic of big data mainly revolves around how big data can make highly accurate predictions. For example, Google used big data to predict the outbreak of H1N1 in specific U.S. cities. For the 2014 World Cup, Baidu accurately predicted match results, from the elimination round to the final game. This is amazing, but what gives big data such power? Machine Learning technology. At the heart of big data is its ability to extract value from data, and Machine Learning is a key technology that makes it possible. For Machine Learning, more data enables more accurate models. At the same time, the computing time needed by complex algorithms requires distributed computing, in-memory computing, and other technology. Therefore, the rise of Machine Learning is inextricably intertwined with big data.

However, big data is not the same as Machine Learning. Big data includes distributed computing, memory database, multi-dimensional analysis, and other technologies. It involves the following four analysis methods:

  • Big data, retain analysis: OLAP analysis thinking in the data warehousing field (multi-dimensional analysis ideas)
  • Big data, big analysis: Data mining and Machine Learning analysis methods
  • Stream analysis: Event-driven architecture
  • Query analysis: NoSQL databases

Although the Machine Learning results are amazing, and, in certain situations, the best demonstration of the value of big data, it is not the only analysis method available to big data, it is one of several big data analysis methods.

Having said that, the combination of Machine Learning and big data has produced great value. Based on the development of Machine Learning technology, data can be used to make predictions. For example, the more extensive the experience, the better you can predict the future. It is said that people with "a wealth of experience" are better at their jobs than "beginners." This is because people with more experience can develop more accurate rules based on their experience.

There is another theory about Machine Learning: the more data a model has, the better its prediction accuracy. The following graph depicts the relationship between Machine Learning accuracy and data.

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The graph shows that after the input data volume for various algorithms reaches a certain level, they have nearly identically high accuracy. This led to a famous saying in the Machine Learning sphere, ‘it's not who has the best algorithm that wins, it's who has the most data!’.

The big data era has many advantages that promote wider application of Machine Learning. For example, with the development of IoT and mobile devices, we now have even more data, including images, text, videos, and other types of unstructured data. This ensures Machine Learning modules have more data. At the same time, the big data distributed computing technology, Map-Reduce, allows faster Machine Learning, making it more convenient to use. The advantages of big data allow the strengths of Machine Learning to be leveraged to their full potential.

Deep Learning

Recently, the development of Machine Learning has taken a new turn, deep learning.

Although the term deep learning sounds pretentious, the concept is quite simple. It refers to the development of a traditional neural network into one with many hidden layers.

In a previous blog post, we talked about the disappearance of neural networks after the 1990s (link to blog 2). However, Geoffrey Hinton, the inventor of BP algorithms, never gave up on his research on neural networks. As a neural network reaches more than two hidden layers, its training speed becomes extremely slow. They have always been less practical than SVM. However, in 2006, Hinton published an article in Science that demonstrated two points:

  • Neural networks with multiple hidden layers possess excellent feature learning capabilities. The features learned by these networks allow them to provide a more fundamental characterization of the data, which is conducive to visualization and classification.
  • Training is difficult for deep neural networks, but can be overcome using step-by-step initialization.

This discovery not only solved computing difficulties of neural networks, but also showed the excellent learning capabilities of deep neural networks. This led to the re- emergence of neural networks as a mainstream and powerful learning technology in the Machine Learning field. At the same time, neural networks with many hidden layers began to be called, "deep neural networks," and the learning and research based on deep neural networks was called, "deep learning."

Owing to its importance, deep learning gained a lot of attention. The following four milestones in the development of this field are worth mentioning:

  • In June 2012, the New York Times revealed the Google Brain project under the joint direction of Andrew Ng (link to blog 1) and Map-Reduce inventor, Jeff Dean. Using a parallel computing platform with 16,000 CPU cores, the team trained a deep neural network Machine Learning model that has had great success in speech and image recognition.
  • In November 2012, Microsoft demonstrated a fully automated, simultaneous interpretation system at an event in Tianjin, China. The speaker gave his speech in English, while a machine simultaneously recognized the speech and translated it into Chinese with a Chinese voice. The system, based on deep learning, performed extremely well.
  • In January 2013 at Baidu's annual conference, Baidu founder and CEO Robin Li made a high-profile speech, announcing the establishment of a research institute that would focus on deep learning, marking the creation of the Institute of Deep Learning.
  • In April 2013, the MIT Technology Review placed deep learning at the top of its list of 10 breakthrough technologies for 2013.

Image 3

In the previous article, "An Introduction to Machine Learning," three titans in the ML field were identified. They are not only experts in Machine Learning, but pioneers in deep learning research. These men lead the technology divisions at major Internet companies because of their technical abilities as well as the unlimited potential of their field of research.

Currently, the progress of image and speech recognition technology in the Machine Learning industry is driven by the development of deep learning.

Deep learning is a sub-field of Machine Learning and its development has substantially raised the status peer. It has driven the industry to turn its attention, once again, to the idea that gave birth to Machine Learning: Artificial intelligence (AI).

Artificial Intelligence

AI is the father of Machine Learning, and deep learning is the child of Machine Learning. The following figure shows the relationships between the three:

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Without a doubt, AI is the most groundbreaking scientific innovation that humans can imagine. Like the name of the game, Final Fantasy, AI is the ultimate scientific dream of mankind. Since the concept of AI was proposed in the 1950s, the scientific and industrial communities have explored its possibilities. During this time, various novels and movies portrayed AI in different ways. Sometimes they feature humans inventing human-like machines, an amazing idea! However, since the 1950s, the development of AI has encountered many difficulties with no scientific breakthroughs.

Overall, the development of AI has passed through several phases. The early period was defined by logical reasoning and the middle period by expert systems. These scientific advances did take us closer to intelligent machines, but the distance to the ultimate goal is still far away. After the advent of Machine Learning, however, the AI community thought it had finally found the correct path. In some vertical fields, image and speech recognition applications based on ML have rivaled human capability. Machine Learning has, for the first time, brought us close to the dream of AI.

In fact, if you compare AI-related technology with the technology of other fields, you will discover that the centrality of Machine Learning to AI is with good reason. The main thing that separates humans from objects, plants, and animals is "wisdom." But what best embodies our wisdom? Is it computing ability? Maybe not. We think of people with high mental computing capabilities as savants, but not necessarily wise. Is it our ability to respond to stimuli? Also, no. Is it memory? No. People with a photographic memory may have retentive minds. What about logical reasoning? Although this might make someone highly intelligent, like Sherlock Holmes, it is still not wisdom. And knowledge? A person may be a walking encyclopedia, yet lack wisdom.

So, what kind of people do we describe as wise? Sages, like Lao Tzu or Socrates? Their wisdom lies in their perception of life as well as their accumulation of experience and deep thinking about life. But is this similar to the concept of Machine Learning? Indeed, it is. The use of experience to draw general rules to guide and predict the future. Without experience, there can be no wisdom.

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For a computer, the abilities listed can all be achieved using a variety of technology. For computing capabilities, there is distributed computing; for responsiveness, there is event-driven architecture; for information retrieval, there are search engines; for knowledge storage, there is data warehousing; and for logical reasoning, there are expert systems. However, the only technology that corresponds to the most prominent characteristics of wisdom, inductive reasoning, and perception, is Machine Learning. This is why Machine Learning can best characterize wisdom.

Let's think about creating a robot. The primary components would be powerful computing capabilities, massive storage, fast data retrieval, quick response, and excellent logical reasoning. Then, a wise brain is added. This would be the birth of AI in the true sense. With the rapid development of Machine Learning, AI may no longer be a dream. The development of AI may not be determined only by Machine Learning, it may also depend on deep learning. That's because deep learning technology better simulates the structure of the human mind and makes significant breakthroughs on the initial limitations of Machine Learning in visual and speech recognition. Therefore, it is highly likely that deep learning proves to be a core technology in the development of true AI. Both Google Brain and Baidu Brain are built from a deep learning network with a massive number of layers. Perhaps, with the help of deep learning technology, a computer with human intelligence may come into reality in the near future.

The rapid development of AI with the assistance of deep learning technology has already caused concern among some. Tesla CEO Elon Musk, a real-world Iron Man, is one such person. Recently, while attending a seminar at MIT, Musk expressed his concerns about AI. He said that AI research was akin to "summoning the demon" and that we must be "very careful" about some areas.

Image 6

Although Musk's warning may sound alarmist, his reasoning is sound. "If its function is just something like getting rid of email spam and it determines the best way of getting rid of spam, it’s getting rid of humans." Musk believes that government regulation is necessary to prevent such a phenomenon. If at the birth of AI, some rules are introduced to restrain it, a scenario where AI overpowers humans can be avoided. AI would not function based only on Machine Learning, but a combination of Machine Learning with a rule engine and other systems. If an AI system does not have learning restrictions, it is likely to misunderstand certain things. Therefore, additional guidance is required. Just as in human society, laws are the best practice. Rules differ based on patterns set up for Machine Learning. Patterns are guidelines derived from probabilities. Rules, on the contrary, are inviolable and cannot be modified. A pattern is alterable, while a rule is not. By effectively combining rules and patterns, a rational and controllable AI with learning abilities can be created.

Computer Subconscious

Lastly, let's look at a few other ideas related to Machine Learning. Let's go back to the story with John from our first blog in this 3 part series, where we talked about methods to predict the future. In real life, few people use such an explicit method. Most people use a more direct method called, intuition. So, what exactly is intuition? Intuition is composed of patterns drawn from past experiences in your subconscious. It is just as if you use an Machine Learning algorithm to create a pattern that can be reused to answer a similar question. But when do you come up with these patterns? It is possible that you develop them unconsciously, for example, when you are sleeping or walking down a street. At such times, your brain is doing imperceptible work.

To better illustrate intuition and subconscious, let's contrast them with another type of experiential thinking. If a man is a very diligent, he examines himself every day or often discusses his recent work with his colleagues. The man is using a direct training method. He consciously thinks about things and draws general patterns from experiences. This method may work well; developing strong memory leading effective responses to practical patterns. However, very few people reach conclusions in this manner. Rather, they use their subconscious to draw patterns from their life experiences. For example, assume you did not drive in the past. However, after you bought a car, you drive to work every day. Each day you take the same route to work. The interesting thing is that, for the first few days, you were very nervous and paid constant attention to the road. Now, during the drive, your eyes stare ahead, but your brain does not think about it. Still, your hands automatically turn the steering wheel to adjust your direction. The more you drive, the more work is handed over to your subconscious. This is a very interesting situation. While driving, your brain records an image of the road ahead and remembers the correct actions for turning the steering wheel. Your subconscious directs the movements of your hands based on the image of the road. Now, suppose you were to give a video recording of the road to a computer and have it record the movements of the driver that correspond to the images. After a period of learning, the computer could generate a Machine Learning pattern and automatically drive the car. That's amazing, right? In fact, this is exactly how self-driving car technology works for companies like Google and Tesla.

In addition to self-driving cars, subconscious thinking can be applied to social interactions. For example, the best way to persuade others is to give them some relevant information to generalize and reach a conclusion that we want. That's why when we are presenting a viewpoint, it is much more effective to use facts or tell a story than simply list reasons or moral principles. Throughout the ages, all great advocates for whatever cause have adopted this approach. During the Spring and Autumn period of ancient China, ministers would speak with monarchs of different states. To persuade a monarch to take a certain course of action, they wouldn't simply tell him what to do (that was a good way to lose one's head). Rather, they told a story so that their preferred policy would suddenly dawn on the monarch as a lesson he drew from the story. There are many examples of such great persuaders, including Mozi and Su Qin. But why are stories more effective? As a person grows, they form many patterns and subconscious attitudes through reflection. If you present a pattern that contradicts a pattern held by the other party, you will probably be rejected. However, if you tell a story with new information, they may change their mind upon reflection. This thinking process is very similar to Machine Learning. It is just like giving someone new data and asking them to retrain their mental models to incorporate this new input. If you give the other party enough data to force them to change their model, they will act in agreement with the new patterns suggested by the data. Sometimes, the other party may refuse to reflect on new information. However, once new data is inputted, whether or not they intend to change their thinking, their mind will subconsciously incorporate the new data into their thinking and lead them to change their opinions.

But what if a computer was to have a subconscious? For instance, if a computer gradually develops its sub-consciousness during its operations, it might complete some tasks before being told to do so. This is a very interesting idea. Think about it!

Conclusion

Machine Learning is an amazing and exciting technology. You find Machine Learning applications everywhere, from Taobao's item recommendations to Tesla’s self- driving cars. At the same time, Machine Learning is the most likely to make the AI dream come true. Various AI applications exist currently, such as Microsoft XiaoIce chat- bot and computer vision technology, incorporate Machine Learning elements. Consider learning even more about Machine Learning, as it may help you better understand the principles behind the technology that brings so much convenience to our lives.

License

This article, along with any associated source code and files, is licensed under The Code Project Open License (CPOL)


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China China
Established in September 2009, Alibaba Cloud develops highly scalable cloud computing and data management services which span data storage, databases, web hosting, networking, security, and CDN. A business of the Alibaba Group, one of the world’s largest e-commerce companies, Alibaba Cloud provides a comprehensive suite of flexible, cost-effective cloud computing services to support growing enterprises worldwide, including customers, sellers and other businesses participating in Alibaba Group’s extensive online and mobile commerce ecosystem. Alibaba Cloud’s global operations are registered and headquartered in Singapore, and the company has international teams stationed in New York, San Mateo, Paris, Frankfurt, London, Sydney, Dubai, Hong Kong, Singapore, Tokyo and Seoul.

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