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Abstract

The authors propose a simulated maximum likelihood estimation method for the random coefficient logit model using aggregate data, accounting for heterogeneity and endogeneity. The method allows for two sources of randomness in observed market shares: unobserved product characteristics and sampling error. Because of the latter, the method is suitable when sample sizes underlying the shares are finite. In contrast, Berry, Levinsohn and Pakes's commonly used approach assumes that observed shares have no sampling error. The method can be viewed as a generalization of Villas-Boas and Winer's approach and is closely related to Petrin and Train's “control function” approach. The authors show that the proposed method provides unbiased and efficient estimates of demand parameters. They also obtain endogeneity test statistics as a by-product, including the direction of endogeneity bias. The model can be extended to incorporate Markov regime-switching dynamics in parameters and is open to other extensions based on maximum likelihood. The benefits of the proposed approach are achieved by assuming normality of the unobserved demand attributes, an assumption that imposes constraints on the types of pricing behaviors that are accommodated. However, the authors find in simulations that demand estimates are fairly robust to violations of these assumptions.

Keywords

random coefficients logit model endogeneity heterogeneity simulated maximum likelihood aggregate data brand choice scanner data

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References

Albuquerque

Paulo

, and Bronnenberg

Bart J.

(2006), “Measuring Consumer Switching to a New Brand Across Local Markets,” working paper, Simon Graduate School of Business, University of Rochester.

Berry

Steven, T.

(1994), “Estimating Discrete-Choice Models of Product Differentiation,” RAND Journal of Economics, 25(2), 242–62.

Berry

Steven T.

, Levinsohn

James

, and Pakes

Ariel

(1995), “Automobile Prices in Market Equilibrium,” Econometrica, 63(4), 841–90.

Berry

Steven T.

, Linton

O.B.

, and Pakes

Ariel

(2004), “Limit Theorems for Estimating the Parameters of Differentiated Product Demand Systems,” Review of Economic Studies, 71(248), 613–54.

Besanko

David

, Gupta

Sachin

, and Jain

Dipak C.

(1998), “Logit Demand Estimation Under Competitive Pricing Behavior: An Equilibrium Framework,” Management Science, 44(November), 1533–47.

Bodapati

Anand

, and Gupta

Sachin

(2004), “The Recoverability of Segmentation Structure from Store-Level Aggregate Data,” Journal of Marketing Research, 41(August), 351–64.

Bronnenberg

Bart J.

, and Mahajan

Vijay

(2001), “Unobserved Retailer Behavior in Multimarket Data: Joint Spatial Dependence in Market Shares and Promotion Variables,” Marketing Science, 20(3), 284–99.

Chen

Yuxin

, and Yang

Sha

(2007), “Estimating Disaggregate Models Using Aggregate Data Through Augmentation of Individual Choice,” Journal of Marketing Research, 44(November), 613–21.

Chintagunta

Pradeep, K.

(2001), “Endogeneity and Heterogeneity in a Probit Demand Model: Estimation Using Aggregate Data,” Marketing Science, 20(4), 442–56.

10.

Chintagunta

Pradeep, K.

(2002), “Investigating Category Pricing Behavior at a Retail Chain,” Journal of Marketing Research, 39(May), 141–54.

11.

Chintagunta

Pradeep K.

, Dubé

Jean-Pierre

, and Goh

Khim Yong

(2005), “Beyond the Endogeneity Bias: The Effect of Unmeasured Brand Characteristics on Household-Level Brand Choice Models,” Management Science, 51(5), 832–49.

12.

Draganska

Mikhaila

, and Jain

Dipak C.

(2002), “A Likelihood Approach to Estimating Market Equilibrium Models,” Management Science, 50(5), 605–616.

13.

Goolsbee

Austen

, and Petrin

Amil

(2004), “The Consumer Gains from Direct Broadcast Satellites and the Competition with Cable TV,” Econometrica, 72(2), 351–81.

14.

Hausman

Jerry, A.

(1978), “Specification Tests in Econometrics,” Econometrica, 46(6), 1251–72.

15.

Hausman

Jerry, A.

(1983), “Specification and Estimation of Simultaneous Equation Models,” in Handbook of Econometrics, Vol. 1, Griliches

, and Intriligator

, eds. Amsterdam: North-Holland, 391–48.

16.

Heckman

James

(1978), “Dummy Endogenous Variables in a Simultaneous Equation System,” Econometrica, 46(4), 931–59.

17.

Jiang

Renna

, Manchanda

Puneet

, and Rossi

Peter E.

(2009), “Bayesian Analysis of Random Coefficient Logit Models Using Aggregate Data,” Journal of Econometrics, forthcoming.

18.

Keane

Michael, P.

(1993), “Simulation Estimation for Panel Data Models with Limited Dependent Variables,” in The Handbook of Statistics & Econometrics, Rao

C.R.

, Maddala

G.S.

, and Vinod

, eds. Amsterdam: Elsevier Science, 545–72.

19.

Keane

Michael, P.

(1997), “Modeling Heterogeneity and State Dependence in Consumer Choice Behavior,” Journal of Business and Economic Statistics, 15(3), 310–27.

20.

Kuksov

Dimitri

, and Miguel Villas-Boas

(2008), “Endogeneity and Individual Consumer Choice,” Journal of Marketing Research, 45(December), 702–714.

21.

Manchanda

Puneet

, Rossi

Peter E.

, and Chintagunta

Pradeep K.

(2004), “Response Modeling with Nonrandom Marketing-Mix Variables,” Journal of Marketing Research, 41(November), 467–78.

22.

Musalem

Andres

, Bradlow

Eric T.

, and Raju

Jagmohan S.

(2007), “Bayesian Estimation of Random-Coefficients Choice Models Using Aggregate Data,” Journal of Applied Econometrics, 24(3), 490–516.

23.

Petrin

Amil

(2002), “Quantifying the Benefits of New Products: The Case of the Minivan,” Journal of Political Economy, 110(4), 705–729.

24.

Petrin

Amil

, and Train

Kenneth

(2004), “Omitted Product Attributes in Discrete Choice Models,” working paper, Booth Graduate School of Business, University of Chicago.

25.

Shim

Eunsup

, and Sudit

Ephraim F.

(1995), “How Manufacturers Price Products,” Management Accounting, 76(8), 37–39.

26.

Sriram

, Balachander

Subramanian

, and Kalwani

Manohar U.

(2007), “Monitoring the Dynamics of Brand Equity Using Store-Level Data,” Journal of Marketing, 71(April), 61–78.

27.

Sudhir

(2001a), “Competitive Pricing Behavior in the U.S. Auto Market: A Structural Analysis,” Marketing Science, 20(1), 42–60.

28.

Sudhir

(2001b), “Structural Analysis of Competitive Pricing in the Presence of a Strategic Retailer,” Marketing Science, 20(3), 244–64.

29.

Train

Kenneth

(2003), Discrete Choice Methods with Simulation. Cambridge, UK: Cambridge University Press.

30.

Villas-Boas

J. Miguel

, and Winer

Russell

(1999), “Endogeneity in Brand Choice Models,” Management Science, 45(10), 1324–38.

31.

Villas-Boas

J. Miguel

, and Zhao

Ying

(2005), “Retailer, Manufacturers, and Individual Consumers: Modeling the Supply Side in the Ketchup Marketplace,” Journal of Marketing Research, 42(February), 83–95.

32.

White

Halbert

(1982), “Maximum Likelihood Estimation of Misspecified Models,” Econometrica, 50(1), 1–25.

33.

Wooldridge

Jeffrey, M.

(2001), Econometric Analysis of Cross-Section and Panel Data. Cambridge, MA: MIT Press.

34.

De-Min

(1973), “Alternative Tests of Independence Between Stochastic Regressors and Disturbances,” Econometrica, 41(4), 733–50.

35.

Yang

Sha

, Chen

Yuxin

, and Allenby

Greg M.

(2003), “Bayesian Analysis of Simultaneous Demand and Supply,” Quantitative Marketing and Economics, 1(3), 244–64.

36.

Yatchew

Adonis

, and Griliches

Zvi

(1985), “Specification Error in Probit Models,” The Review of Economics and Statistics, 67(1), 134–39.

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Simulated Maximum Likelihood Estimator for the Random Coefficient Logit Model Using Aggregate Data

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