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understanding of the methods and models, how they behave, and why they behave the way they do is a prerequisite for efficient and successful application of data mining technology. The premise of this book is that there are just a handful of important principles and issues in the field of data mining. Any researcher or practitioner in this field needs to be aware of these issues in order to successfully apply a particular methodology, to understand a method’s limitations, or to develop new techniques. This book is an attempt to present and discuss such issues and principles and then describe representative and popular methods originating from statistics, machine learning, computer graphics, data bases, information retrieval, neural networks, fuzzy logic, and evolutionary computation.

In this book, we describe how best to prepare environments for performing data mining and discuss approaches that have proven to be critical in revealing important patterns, trends, and models in large data sets. It is our expectation that once a reader has completed this text, he or she will be able to initiate and perform basic activities in all phases of a data mining process successfully and effectively. Although it is easy to focus on the technologies, as you read through the book keep in mind that technology alone does not provide the entire solution. One of our goals in writing this book was to minimize the hype associated with data mining. Rather than making false promises that overstep the bounds of what can reasonably be expected from data mining, we have tried to take a more objective approach. We describe with enough information the processes and algorithms that are necessary to produce reliable and useful results in data mining applications. We do not advocate the use of any particular product or technique over another; the designer of data mining process has to have enough background for selection of appropriate methodologies and software tools.

MEHMED KANTARDZIC

Louisville

August 2002

1

DATA-MINING CONCEPTS

Chapter Objectives

Understand the need for analyses of large, complex, information-rich data sets.

Identify the goals and primary tasks of data-mining process.

Describe the roots of data-mining technology.

Recognize the iterative character of a data-mining process and specify its basic steps.

Explain the influence of data quality on a data-mining process.

Establish the relation between data warehousing and data mining.

1.1 INTRODUCTION

Modern science and engineering are based on using first-principle models to describe physical, biological, and social systems. Such an approach starts with a basic scientific model, such as Newton’s laws of motion or Maxwell’s equations in electromagnetism, and then builds upon them various applications in mechanical engineering or electrical engineering. In this approach, experimental data are used to verify the underlying first-principle models and to estimate some of the parameters that are difficult or sometimes impossible to measure directly. However, in many domains the underlying first principles are unknown, or the systems under study are too complex to be mathematically formalized. With the growing use of computers, there is a great amount of data being generated by such systems. In the absence of first-principle models, such readily available data can be used to derive models by estimating useful relationships between a system’s variables (i.e., unknown input–output dependencies). Thus there is currently a paradigm shift from classical modeling and analyses based on first principles to developing models and the corresponding analyses directly from data.

We have gradually grown accustomed to the fact that there are tremendous volumes of data filling our computers, networks, and lives. Government agencies, scientific institutions, and businesses have all dedicated enormous resources to collecting and storing data. In reality, only a small amount of these data will ever be used because, in many cases, the volumes are simply too large to manage, or the data structures themselves are too complicated to be analyzed effectively. How could this happen? The primary reason is that the original effort to create a data set is often focused on issues such as storage efficiency; it does not include a plan for how the data will eventually be used and analyzed.

The need to understand large, complex, information-rich data sets is common to virtually all fields of business, science, and engineering. In the business world, corporate and customer data are becoming recognized as a strategic asset. The ability to extract useful knowledge hidden in these data and to act on that knowledge is becoming increasingly important in today’s competitive world. The entire process of applying a computer-based methodology, including new techniques, for discovering knowledge from data is called data mining.

Data mining is an iterative process within which progress is defined by discovery, through either automatic or manual methods. Data mining is most useful in an exploratory analysis scenario in which there are no predetermined notions about what will constitute an “interesting” outcome. Data mining is the search for new, valuable, and nontrivial information in large volumes of data. It is a cooperative effort of humans and computers. Best results are achieved by balancing the knowledge of human experts in describing problems and goals with the search capabilities of computers.

In practice, the two primary goals of data mining tend to be prediction and description. Prediction involves using some variables or fields in the data set to predict unknown or future values of other variables of interest. Description, on the other hand, focuses on finding patterns describing the data that can be interpreted by humans. Therefore, it is possible to put data-mining activities into one of two categories:

1. predictive data mining, which produces the model of the system described by the given data set, or

2. descriptive data mining, which produces new, nontrivial information based on the available data set.

On the predictive end of the spectrum, the goal of data mining is to produce a model, expressed as an executable code, which can be used to perform classification, prediction, estimation, or other similar tasks. On the descriptive end of the spectrum, the goal is to gain an understanding of the analyzed system by uncovering patterns and relationships in large data sets. The relative importance of prediction and description for particular data-mining applications can vary

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