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Python Machine Learning By Example

You're reading from   Python Machine Learning By Example The easiest way to get into machine learning

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Product type Paperback
Published in May 2017
Publisher Packt
ISBN-13 9781783553112
Length 254 pages
Edition 1st Edition
Languages
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Authors (2):
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Yuxi (Hayden) Liu Yuxi (Hayden) Liu
Author Profile Icon Yuxi (Hayden) Liu
Yuxi (Hayden) Liu
Ivan Idris Ivan Idris
Author Profile Icon Ivan Idris
Ivan Idris
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Table of Contents (9) Chapters Close

Preface 1. Getting Started with Python and Machine Learning 2. Exploring the 20 Newsgroups Dataset with Text Analysis Algorithms FREE CHAPTER 3. Spam Email Detection with Naive Bayes 4. News Topic Classification with Support Vector Machine 5. Click-Through Prediction with Tree-Based Algorithms 6. Click-Through Prediction with Logistic Regression 7. Stock Price Prediction with Regression Algorithms 8. Best Practices

What is machine learning and why do we need it?

Machine learning is a term coined around 1960 composed of two words—machine corresponding to a computer, robot, or other device, and learning an activity, or event patterns, which humans are good at.

So why do we need machine learning, why do we want a machine to learn as a human? There are many problems involving huge datasets, or complex calculations for instance, where it makes sense to let computers do all the work. In general, of course, computers and robots don't get tired, don't have to sleep, and may be cheaper. There is also an emerging school of thought called active learning or human-in-the-loop, which advocates combining the efforts of machine learners and humans. The idea is that there are routine boring tasks more suitable for computers, and creative tasks more suitable for humans. According to this philosophy, machines are able to learn, by following rules (or algorithms) designed by humans and to do repetitive and logic tasks desired by a human.

Machine learning does not involve the traditional type of programming that uses business rules. A popular myth says that the majority of the code in the world has to do with simple rules possibly programmed in Cobol, which covers the bulk of all the possible scenarios of client interactions. So why can't we just hire many software programmers and continue programming new rules?

One reason is that defining, maintaining, and updating rules becomes more and more expensive over time. The number of possible patterns for an activity or event could be enormous and therefore exhausting all enumeration is not practically feasible. It gets even more challenging to do so when it comes to events that are dynamic, ever-changing, or evolve in real-time. It is much easier and more efficient to develop learning rules or algorithms which command computers to learn and extract patterns, and to figure things out themselves from abundant data.

Another reason is that the volume of data is exponentially growing. Nowadays, the floods of textual, audio, image, and video data are hard to fathom. The Internet of Things (IoT) is a recent development of a new kind of Internet, which interconnects everyday devices. The Internet of Things will bring data from household appliances and autonomous cars to the forefront. The average company these days has mostly human clients, but, for instance, social media companies tend to have many bot accounts. This trend is likely to continue and we will have more machines talking to each other. Besides the quantity, the quality of data available has kept increasing over the past few years due to cheaper storage. These have empowered the evolution of machine learning algorithms and data-driven solutions.

Jack Ma from Alibaba explained in a speech that Information Technology (IT) was the focus over the past 20 years and now, for the next 30 years, we will be at the age of Data Technology (DT). During the age of IT, companies have grown larger and stronger thanks to computer software and infrastructure. Now that businesses in most industries have already gathered enormous amounts of data, it is presently the right time for exploiting DT to unlock insights, derive patterns, and to boost new business growth. Broadly speaking, machine learning technologies enable businesses to better understand customer behavior and engage with customers, also to optimize operations management. As for us individuals, machine learning technologies are already making our life better every day.

An application of machine learning that we all are familiar with is spam email filtering. Another is online advertising where ads are served automatically based on information advertisers have collected about us. Stay tuned for the next chapters where we will learn how to develop algorithms in solving these two problems. An application of machine learning we basically can not live without is search engines. Search engines involve information retrieval which parses what we look for and queries related records, and contextual ranking and personalized ranking which sorts pages by topical relevance and to the user's liking. E-commerce and media companies have been at the forefront of employing recommendation systems, which help customers find products, services, articles faster. The application of machine learning is boundless and we just keep hearing new examples everyday, credit card fraud detection, disease diagnosis, presidential election prediction, instant speech translation, robo-advisor, you name it!

In the 1983 War Games movie, a computer made life and death decisions, which could have resulted in Word War III. As far as we know, technology wasn't able to pull off such feats at the time. However, in 1997 the Deep Blue supercomputer did manage to beat a world chess champion. In 2005, a Stanford self-driving car drove by itself for more than 130 kilometers in a desert. In 2007, the car of another team drove through regular traffic for more than 50 kilometers. In 2011, the Watson computer won a quiz against human opponents. In 2016, the AlphaGo program beat one of the best Go players in the world. If we assume that computer hardware is the limiting factor, then we can try to extrapolate into the future. Ray Kurzweil did just that and according to him, we can expect human level intelligence around 2029. What's next?

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