Title: Modelling automotive warranty claims with build-to-sale data uncertainty

Authors: Andre Kleyner, Keith Sanborn

Addresses: Delphi Corporation, Electronics & Safety Division, PO Box 9005, M.S. D34, Kokomo, IN 46904, USA. ' Delphi Corporation, Electronics & Safety Division, PO Box 9005, M.S. D34, Kokomo, IN 46904, USA

Abstract: Automotive suppliers routinely analyse a large number of warranty claims for their products, for the purpose of design and process improvement, as well as warranty cost forecasting. In some instances, automotive warranty claims data are incomplete, which brings additional uncertainty to the process of analysis and forecasting. For example, it is not uncommon to have the vehicle build dates and warranty claim dates recorded, but the sale dates missing or unavailable to the supplier. This paper shows that using the build date instead of the sale date as the start of a mission life, provides drastic and sometimes unexpected differences in the outcomes of warranty claims forecasting. This paper presents a Monte Carlo simulation procedure to generate the missing time from build to sale data. It discusses different simulation algorithms, and analyses their accuracy, by comparing simulated data with actual data. In addition, the authors conducted a statistical analysis of build to sale data for various vehicle name plates and platforms, in order to enhance the forecasting procedure and improve its accuracy.

Keywords: automotive warranty data; forecasting; missing data; stochastic simulation; uncertainty; warranty claims; Weibull analysis; automobile industry; build date; Monte Carlo simulation.

DOI: 10.1504/IJRS.2008.021063

International Journal of Reliability and Safety, 2008 Vol.2 No.3, pp.179 - 189

Published online: 01 Nov 2008 *

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