Contraceptive Method Choice

1. Contraceptive Method Choice 指導教授 黃三益博士 組員:B924020007 王俐文 B924020009 謝孟凌 B924020014 陳怡珺

2. Background and Motivation • Population of the world increases tremendously, people of present day pay more attention to contraceptive method.

3. Step one: Translate the Business Problem into a Data Mining Problem • Topic: Contraceptive Method Choice • Predict the current contraceptive method choice (no use, long-term methods, or short-term methods) of a woman based on her demographic and socio-economic characteristics. • Especially what kind of couples would chose long-term method.

4. Step two: Select Appropriate Data • Title: Contraceptive Method Choice • Sources: • Origin: Subset of the 1987 National Indonesia Contraceptive Prevalence Survey • Creator: Tjen-Sien Lim • Date: June 7, 1997

5. Step two: Select Appropriate Data • Number of Instances: 1473 • There is no missing value in this dataset.

6. Step two: Select Appropriate Data • Number of attributes: 10 (including the class attribute)

7. Step three: Get to Know the Data • Attribute Information

8. Step three: Get to Know the Data • Attribute Information

9. Step three: Get to Know the Data • Attribute Information

10. Step three: Get to Know the Data • Attribute Information

11. Step three: Get to Know the Data • Attribute Information

12. Step three: Get to Know the Data • Attribute Information

13. Step three: Get to Know the Data • Attribute Information

14. Step three: Get to Know the Data • Attribute Information

15. Step three: Get to Know the Data • Attribute Information

16. Step three: Get to Know the Data • Attribute Information

17. Step Four : Create a Model Set • Raw Data

18. Step Four : Create a Model Set • Total 1473 samples • 75% of the data as training set the rest of the data as testing set →By random sampling • Rapid Miner

19. Step Five: Fix Problems with the Data • No missing value • Skewed distributions

20. Step Six : Transform Data to Bring Information to the Surface • most of the values of the attribute named Media Exposure are “Good” • the numeric variables to do the statistical analysis to finding outliers

21. Step7 Build Model • By RapidMiner, build it with Decision Tree

22. Step7 Build Model(con’t)

23. Step7 Build Model(con’t) • Ripper Rule • if wife_age > 30 and Num_children_born <= 1 then 1 (53 / 1 / 3) • if Num_children_born <= 0 then 1 (36 / 0 / 0) • if Wife_education = 4 and wife_age <= 42 and Wife_religion = 0 and Num_children_born > 3 then 2 (0 / 14 / 0) • if Wife_education = 1 and Husband_occupation = 2 then 1 (17 / 0 / 1) • if Wife_education = 4 and wife_age > 33 and Num_children_born > 2 and Husband_occupation = 1 and Num_children_born <= 3 then 2 (1 / 10 / 2)

24. Step7 Build Model(con’t) • if Num_children_born > 2 and wife_age <= 33 and Wife_now_working = 1 and Num_children_born <= 4 and wife_age > 28 then 3 (1 / 0 / 13) • if wife_age <= 35 and Num_children_born > 4 and Media_exposure = 0 then 3 (1 / 2 / 12) • if Husband_education = 4 and wife_age <= 44 and living_level = 3 and wife_age > 37 then 2 (0 / 5 / 0) • else 1 (305 / 168 / 281)

25. Step7 Build Model(con’t) • Weka-JRip • (Wife_education = 4) and (Num_children_born >= 3) and (wife_age >= 35) => method_used=2 (178.0/76.0) • (wife_age <= 33) and (Num_children_born >= 3) => method_used=3 (271.0/120.0) • (wife_age <= 33) and (Num_children_born >= 1) and (wife_age <= 22) => method_used=3 (106.0/51.0) • => method_used=1 (771.0/342.0)

26. Step 8 Assess Model • Decision Tree

27. Step 8 Assess Model(con’t) • Ripper Rule

28. Step 8 Assess Model(con’t) • JRip Rule

29. Conclusion • Result • The problems we should improve • more data • ignore some attributes • details of the attribute are not so clear • period and environment have changed

30. Thanks for you listening…