1. “A Unified Framework for Measuring Preferences for Schools and Neighborhoods” Bayer, Ferreira, McMillian

2. Research Question How to measure households value for good schools and neighborhood characteristics? Why do we care? – School quality affects economically important outcome like earnings (important topic in labor economics) – Public policy: property taxes fund education, policy evaluation e.g. cost benefit analysis of desegregation programs

3. Literature Review Black (QJE, 1999) -Typical approach look at effect of school quality on test scores and earnings -Alternative approach: estimate households willingness to pay for better school Basic idea: when agent purchases a home, she is also pay for: – Type of house she buys – the schools that her children go to – Neighborhood characteristics

4. Willingness to Pay Hedonic Model: – X- characteristics of house e.g. size, type, # rooms – Z- neighborhood socio-demographics – ε – error term ID problem: endogeneity of neighborhood characteristics Solution: Boundary Discontinuity Design – Instrument for socio-demographics

5. Boundary Discontinuity Design: Ideal Experiment School Attendance Zone A School Attendance Zone B

6. Boundary Discontinuity Design Socio-demographics of neighborhoods the same Difference in Quality of school depending on school attendance zone  paying for school quality In practice, need to consider housed in narrow bands (0.1-0.3 miles) – Statistical Power to make inferences Need to control for socio-demographics

7. Ownership and # of Rooms

8. Test Scores and Housing Prices

9. Contributions Addresses endogeneity of neighborhood characteristics – Produced more consistent estimates of willingness to pay for good school Limitation of Study – Does not control for socio-demographics above on beyond boundary instrument

10. Bayer, Ferreira, McMillian – Improve on Black by Using richer data set – Unrestricted Census Data » Contains block level information Embedding Boundary Discontinuity Design within discrete choice heterogeneous sorting model

11. Data Decennial Census -- restricted version (1990) – Filled out by 15% of households – Individual Level Data: race, age, education attainment, income of each household member, type of residence: owned, rented, property tax payment, number of rooms, number of bedroom, types of structure, age of building, house location, workplace location – Neighborhood level data: race, education, income composition, also add data on crime, land use, topography, local schools – matched with county level transactions data, matched with HMDA data to get 60% of home sales and neighborhood variables for 85% Relevant Study Sites: Area: Bay Area: Alameda, Contr Costa, Marin, San Mateo, San Francisco, Santa Clara Advantages: – small area, ppl don’t typically commute out of area – lots of data: » 1,100 census tracts, 4,000 census block groups, 39500 census » full sample 650k people, 242.1k households School quality measure: avg. 4 th grade math and reading score – Advantage: easily observable to both teachers and parents

12. Summary Statistics Home value $300,000 Rent $750/month, 60% homes owned, 68% black, 8% white, 44% head of households college degree, avg. block income $55,000

13. Implementing BDD Each census block assigned to closest school attendance zone boundary Each block paired with a “twin” census block – Closest block on opposite side of boundary For each pair, block with lowest average test score designated “low” side of boundary, the other “high” side Boundary Cutoff: census blocks ≤ 0.2 miles from nearest (SAZ) – Have power to restrict even further to ≤ 0.1 m

14. BBD Continuous Observations Housing Characteristics that are continuous across the boundary: – Number of rooms – Construction date – Ownership status: owner occupied/rented – Size: lot size, square footage

15. Construction Date and Size

16. BBD Discontinuous Observations Housing Characteristics that are discontinuous across the boundary: – House Price (by $18,719, i.e. 7%-8% of mean value) Neighborhood Characteristics that are discontinuous across the boundary: – Test Scores (by 74 pts) – Percentage Black (by 3%) – Percentage with College Degree (by 5%) – Mean Income (by $2,861, i.e.6%-7%)

17. Education, Income & Race

18. Conceptual Take Away – Quality of physical housing stock same across boundary – prices different – socio-demographics – and test scores different – Inference: households on the “high” side of the boundary paying for higher quality schools and sorting into the SAZ with better schools

19. Hedonic Price Regression

20. Comments Accounting for Boundary Fixed Effects Reduces hedonic valuation of good schools – Consistent with Black (1999) Controlling for Neighborhood Socio- demographics reduces it further Households racial preferences for neighbors not capitalized in housing prices – Coefficient on percent black drops from -$100 to almost zero with Boundary fixed effects

21. Robustness Checks School level socio-demographics – Race, language ability, teacher education, student income – estimate on preference for school test score in baseline: 17.3 (5.9) – with addition control estimate: 22.6 (8.5) Inclusion of Block-level socio-demographics Dropped Top Coded Houses in Census Data (with values greater than $500,000) Use housing prices from transactions data Using Only owner occupied units Take-away: results robust to those in base-line specification w/o these detailed measures

22. Discrete Choice Sorting Model Model – Each household (i) decides which house (h) to buy/rent – Random Utility Model (McFadden) House characteristics (X h ) – size, age, type) – Type (owned/rented) – Neighborhood and School characteristics Distance from house to work (d i h ) Boundary fixed effects (Θ bh ) Price (p h ) Unobserved housing quality (ξ h ) Individual specific error term (ε i h )

23. Maximization Problem Objective: Allow for agents valuation of housing characteristics to depend on individual characteristics:

24. Estimation Strategy Two step process – Separate utility function into part that captures mean preferences and part that captures preference heterogeneity – Step #1: Use MLE to estimate heterogeneous parameters and mean utility – Step #2: Separate mean utility in components that are observable and unobservable Utilize assumption that Individual specific error term (ε i h ) follows extreme value distribution Use characteristics of houses > 3miles away as price instrument to obtain causal estimates

25. Results

26. Comments Preferences for better schools similar across hedonic BDD estimates and discrete choice model Preferences for black neighbors highly negative in discrete choice model estimate – Different from hedonic estimation for race preference – Idea: self-segregation by race can arise through sorting that does not affect equilibrium prices

27. Robustness Checks