Bankruptcy prediction and structural credit risk models
Date
2008ISBN
978-0-511-75419-7978-0-521-86928-7
Publisher
Cambridge University PressPlace of publication
Cambridge, UKNew York
Pages
154-174Google Scholar check
Metadata
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Introduction Default is triggered by a firm’s failure to meet its financial obligations. Default probabilities and changes in expected default frequencies affect markets participants, such as investors and lenders, since they assume responsibility for the credit risk of their investments. The lack of a solid economic understanding of the factors that determine bankruptcy makes explanation and prediction of default difficult to assess. However, the accuracy of these predictors is essential for sound risk management and for evaluation of the vulnerability of corporations and institutional lenders. In recognition of this, the new capital adequacy framework (Basel II) envisages a more active role for banks in measuring the default risk of their loan books. The need for reliable measures of default or credit risk is clear to all. The accounting and finance literature has produced a variety of models attempting to predict or measure default risk. There are two primary types of models that describe default processes in the credit risk literature: structural models and reduced-form models. Structural models use the evolution of a firm’s structural variables, such as asset and debt values, to determine the timing of default. Merton’s model (1974) is considered the first structural model. In Merton’s model, a firm defaults if, at the time of servicing the debt at debt maturity, its assets are below its outstanding debt. A second approach within the structural framework was introduced by Black and Cox (1976). In this approach default occurs when a firm’s asset value falls below a certain threshold. © Cambridge University Press 2008.