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Integration of Real World Data

Integration of Real World Data. Mike Kassoff. Big Picture. Problem Statement – What is the desired end result? (“Business requirements”) Data Location / Collection – Find some data to integrate, and/or make some yourself. Put the data in staging tables if desired and possible.

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Integration of Real World Data

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  1. Integration of Real World Data Mike Kassoff

  2. Big Picture • Problem Statement – What is the desired end result? (“Business requirements”) • Data Location / Collection – Find some data to integrate, and/or make some yourself. Put the data in staging tables if desired and possible. • Data Cleaning - Get rid of bad data • Data Integration– See first 9 lectures of CS 246

  3. Staging Tables • Local tables in a database in the schema of imported data and with ‘dirty data’ • May have more staging tables as intermediates between imported schema staging tables and local schema • Especially useful if importing data infrequently

  4. Data Cleaning • That’s what this presentation is about! • Why is data cleaning needed? • How do we clean it?

  5. Data is often of low quality • Why? • You didn’t collect it yourself! • It probably was created for some other use, and then you came along wanting to integrate it • People make mistakes (typos) • People are busy (“this is good enough”)

  6. Problems with data • Some data are have problems on their own • Other data are problematic only when you want to integrate it

  7. Data with problems on their own

  8. Problems due to lack of structure • Nowadays, we have databases and XML • Before, everyone had their own way of structuring data, based on what was convenient for them • Even today, not everyone uses structured data • Lack of know-how • Lack of time • Convenience

  9. Case study: government agency data • What we want:

  10. First problem What’s wrong here? 1'Dept. of Transportation'New York'NY 2'Dept. of Finance'New York'NY 3'Office of Veteran's Affairs'New York'NY • The separator is used in the data. • Easy to miss if you don’t check the # of columns when parsing each row.

  11. Second problem What’s wrong here? 1,Dept. of Transportation,New York City,NY 2,Dept. of Finance,City of New York,NY 3,Office of Veteran's Affairs,New York,NY • We need standardization / naming conventions • Could we enforce this in XML? In a database?

  12. Third problem What’s wrong here? 1,Dept. of Transportation,New York,NY ,Dept. of Finance,New York,NY 3,Office of Veteran's Affairs,New York,NY • A missing required field • Couldn’t occur in a database because of primary key constraint • Could fix this in XML with a REQUIRED tag

  13. Fourth problem What’s wrong here? 1,Dept. of Transportation,New York,NY Two,Dept. of Finance,New York,NY Office of Veteran's Affairs,3,New York,NY • No data type contraints • Can’t fix in XML w/ DTDs. • XML Schema will fix this problem

  14. Fifth Problem What’s wrong here? 1,Dept. of Transportation,New York,NY 2,Dept. of Finance,New York,NY 3,Commission for the United Nations Consular Corps and Protocol,New York,NY • Field longer than documentation tells us. • XML DTDs cannot help, XML Schema can help

  15. Sixth Problem What’s wrong here? 1,Dept. of Transportation,New York,NY 2,Dept. of Finance,New York,NY 2,Office of Veteran's Affairs,New York,NY • Primary key constraint violation • XML can help us if we use ID attribute

  16. Seventh Problem What’s wrong here? 1,Dept. of Transportation,New York,NY 2,Dept. of Finance,New York,NY 3,Dept. of Finance,New York,NY • Redundancy! • XML can’t help here • Databases can help (use constraints) • Solution is to normalize data

  17. Eighth problem What’s wrong here? Contract 1,Dept. of Transportation,New York,NY 2,Dept. of Finance,New York,NY 3,Office of Veteran's Affairs,New York,NY • Contractual obligations disallow you from using the data as you like

  18. Problems not due to lack of structure (it’s in a database)

  19. Flags • More subtle if they are in a database • Most frequently used flags: 0s and 9s • Signify ‘no data’ or ‘out of range’ • Be careful: sometimes 0 is a better value for ‘out of range’ than is null (Ex: trace elements)

  20. Typos • How to catch them? • Pay someone to manually check all data • Sort data by frequency • ‘green’ is more frequent than ‘rgeen’ • Works well for categorical data • Use constraints • Use statistical techniques

  21. Using Constraints to Catch Corrupt Data • Foreign key constraints work well if data possibilities can be pre-enumerated • Numerical constraints • Weight can’t be negative • People can’t have more than 2 parents • Women can’t bear 80 children

  22. Using Statistical Techniques to Catch Corrupt Data • Check for outliers (the case of the 60 foot man) • Check for correlated outliers (“pregnant males”) • People can be male • People can be pregnant • People can’t be male AND pregnant

  23. Hidden Semantics • Even in a structured document, not all data are explicit • Order may be important, even if there is no explicit ‘order tag’ • Whitespace may be important

  24. Hidden Semantics Example: MYCIN rules • MYCIN is a program that uses a knowledge base of rules to diagnose a patient using backward chaining • The order of the rules is important – using the same rules in a different order produces different results • There is nothing in the rules themselves that suggests the importance of order

  25. Hidden Semantics Example: Gene Ontology (GO) • Above is some data from the GO • The whitespace is important • What does the whitespace mean? I have no idea. I’d need to look at the documentation.

  26. Misleading data • The table on the top is data as it is given to us • The table on the bottom is what the data “means” • Whitespace is used in a misleading way

  27. Data that that is fine on its own, but becomes problematic when you want to integrate it

  28. Formats • Not everyone uses the same format as you • Dates are especially problematic: • 12/19/77 • 12/19/1977 • 12-19-77 • 19/12/77 • Dec 19, 1977 • 19 December 1977 • 9 in Tevet, 5738

  29. Data that Moves • Be careful of taking snapshots of a moving target • Let’s say you want to store the price of a skillet in France, and the price of a pot in Germany • You can’t store it all in the same currency (say, US$) because the exchange rate changes • Price in foreign currency stays the same • Must keep the data in foreign currency and use the current exchange rate to convert

  30. Data at a different level of detail than you need • If it is at a finer level of detail, you can sometimes bin it • Example • I need age ranges of 20-30, 30-40, 40-50, etc. • Imported data contains birth date • No problem! Divide data into appropriate categories

  31. Data at a different level of detail than you need (cont’d) • Sometimes you cannot bin it • Example • I need age ranges 20-30, 30-40, 40-50 etc. • Data is of age ranges 25-35, 35-45, etc. • What to do? • Ignore age ranges because you aren’t sure • Make educated guess based on imported data (e.g., assume that # people of age 25-35 are average # of people of age 20-30 & 30-40)

  32. Conflicting Data • Information source #1 says that George lives in Texas • Information source #2 says that George lives in Washington, DC • What to do? • Use both (He lives in both places) • Use the most recently updated piece of info • Use the “most trusted” info • Flag row to be investigated further by hand • Use neither (We’d rather be incomplete than wrong)

  33. Data Cleaning seems like a big pain. Can I avoid it somehow?

  34. One Possibility: Do Nothing • Maybe you don’t want to clean up the data at all • Example: RiboWeb • RiboWeb consists of integrated data from scientific papers about ribosomal structure • Even if data is known to be incorrect, it is kept in the RiboWeb database • The source of the data is contained in the schema, allowing you to judge for yourself the likely quality of the data • Author • Journal name • Whether paper was reviewed by peers

  35. Summary – 6 Steps of Data Cleaning • Elementizing • Standardizing • Verifying • Matching • Householding • Documenting

  36. Example 6 steps example from Dealing with Dirty Data By Ralph Kimball DBMS, September 1996 Address entry from unstructured file: Ralph B and Julianne Kimball Ste. 11613150 Hiway 9Box 1234 Boulder CrkColo 95006

  37. Elementizing Also known as parsing: Addressee First Name(1): RalphAddressee Middle Initial(1): BAddressee Last Name(1): KimballAddressee First Name(2): JulianneAddressee Last Name(2): KimballStreet Address Number: 13150Street Name: Hiway 9Suite Number: 116Post Office Box Number: 1234City: Boulder CrkState: ColoFive Digit Zip: 95006

  38. Standardizing • We should replace synonyms with one standard term • Hiway 9  Highway 9 • Boulder Crk  Boulder Creek • Colo  Colorado

  39. Verifying Does the data make sense? • Boulder Creek and Zip Code 95006 are in California • State was listed as Colorado • 2/3 attributes point to California as the correct state. Change state to California.

  40. Matching Do a consistency check on the data • Find either Ralph Kimball or Julianne Kimball in other customer records and ensure that all of the elements of all the addresses are identical. • This differs from Verifying because it deals with multiple rows of data, not just the current one

  41. Householding Linking together different data rows • Term comes from marketing lingo • Say you have information that Ralph and Julianne are married. In this case, they constitute a “household” because you don’t need to send both of them a brochure. • Applies in other contexts too (for example, “manager-of” relation)

  42. Documenting Document the results of elementizing, standardizing, verifying, matching, and householding in metadata • Important for users of the integrated database • Important for doing future updates of the database

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