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Linear regression issues in astronomy Eric Feigelson Summer School in astrostatistics References Isobe, Feigelson, Akritas & Babu, ApJ 364, 105 1990 Feigelson.

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Presentation on theme: "Linear regression issues in astronomy Eric Feigelson Summer School in astrostatistics References Isobe, Feigelson, Akritas & Babu, ApJ 364, 105 1990 Feigelson."— Presentation transcript:

1 Linear regression issues in astronomy Eric Feigelson Summer School in astrostatistics References Isobe, Feigelson, Akritas & Babu, ApJ 364, 105 1990 Feigelson & Babu, ApJ 397, 55 1992

2 Structural regression Seeking the intrinsic relationship between two properties without specifying ‘dependent’ and ‘independent’ variables OLS(Y|X) OLS(X|Y) (inverse regr) Four symmetrical regression lines

3 Analytical formulae for slopes of the 6 OLS lines

4 Example: Faber-Jackson relation between diameter and stellar velocity dispersion of elliptical galaxies

5 Heteroscedastic measurement errors in both variables Homoscedastic functional Deeming (Vistas Astr 1968) Fuller “Measurement Error Models” (1987) Heteroscedastic functional York (Can J Phys 1966) ODRPACK Boggs et al. (ACM Trans Math Soft 1990) Heteroscedastic structural BCES (Akritas & Bershady ApJ 1996)

6 Y = observed data V = measurement errors X = intrinsic variables e = intrinsic scatter Regression model BCES slope estimator BCES slope variance Regression with measurement errors and intrinsic scatter Akritas & Bershady, ApJ 470, 706 1996

7 Truncation due to flux limits Econometrics: Tobit & LIMDEP models (Amemiya, Advanced econometrics 1985; Maddala, Limited-dependent & Quantitative Variables in Econometrics 1983) Astronomy: Malmquist bias in Hubble diagram (Deeming, Vistas Astr 1968, Segal, PNAS 1975)

8 Censoring due to non-detections Correlation coefficients: Generalized Kendall’s  (Brown, Hollander & Korwar 1974) Linear regression with normal residuals: EM Algorithm (Wolynetz Appl Stat 1979) Linear regression with Kaplan-Meier residuals: Buckley & James (Biometrika 1979) Schmitt (ApJ 1985) Presented for astronomy by Isobe, Feigelson & Nelson (ApJ 1986) Implemented in Astronomy Survival Analysis (ASURV) package

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11 Conclusions Bivariate linear regression in astronomy can be surprisingly complex. Pay attention to precise question being asked, and details of situation. Several codes available through http://astrostatistics.psu.edu/statcodes. Functional vs. structural regression Symmetrical vs. dependent regression Weighting by measurement error Truncation & censoring due to flux limits Other topics not considered here (some covered later in the Summer School): Robust & rank regression techniques to treat outliers Goodness-of-fit, model selection and parsimony Nonlinear regression Multivariate regression

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