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April 10, 2013 - May 8, 2026

Available Issues

April 10, 2013 - May 8, 2026

Risk Tuning with Generalized Linear Regression

Published Online:1 Aug 2008https://doi.org/10.1287/moor.1080.0313

References

  • Acerbi C. Spectral measures of risk: A coherent representation of subjective risk aversion. J. Banking Finance (2002) 26:1505–1518CrossrefGoogle Scholar
  • Acerbi C., Tasche D. On the coherence of expected shortfall. J. Banking Finance (2002) 26:1487–1503CrossrefGoogle Scholar
  • Artzner P., Delbaen F., Eber J.-M., Heath D. Thinking coherently. Risk (1997) 10:68–91Google Scholar
  • Artzner P., Delbaen F., Eber J.-M., Heath D. Coherent measures of risk. Math. Finance (1999) 9:203–227CrossrefGoogle Scholar
  • Bassett G. W., Koenker R., Kordas G. Pessimistic portfolio allocation and choquet expected utility. J. Financial Econometrics (2004) 2:477–492CrossrefGoogle Scholar
  • Ben Tal A., Teboulle M. An old-new concept of convex risk measures: The optimized certainty equivalent. Math. Finance (2007) 17:449–476CrossrefGoogle Scholar
  • Cherny A. S., Madan D. P. Coherent measurement of factor risks. (2006) . Available at http://ssrn.com/abstract=904543Google Scholar
  • Föllmer H., Schied A.Stochastic Finance (2002) (DeGruyter, Berlin) CrossrefGoogle Scholar
  • Koenker R.Quantile Regression (2005) (Cambridge University Press, Cambridge) Econometric Society Monograph SeriesCrossrefGoogle Scholar
  • Koenker R., Bassett G. W. Regression quantiles. Econometrica (1978) 46:33–50CrossrefGoogle Scholar
  • Rockafellar R. T.Convex Analysis (1970) (Princeton University Press)CrossrefGoogle Scholar
  • Rockafellar R. T. Coherent approaches to risk in optimization. Tutorials Operations Research (2007) (INFORMS, Hanover, MD) 38–61Google Scholar
  • Rockafellar R. T., Uryasev S. P. Optimization of conditional value-at-risk. J. Risk (2000) 2:21–42CrossrefGoogle Scholar
  • Rockafellar R. T., Uryasev S. P. Conditional value-at-risk for general loss distributions. J. Banking Finance (2002) 26:1443–1471CrossrefGoogle Scholar
  • Rockafellar R. T., Uryasev S., Zabarankin M. Deviation measures in risk analysis and optimization. (2002) . Research Report 2002-7, Department of Industrial and Systems Engineering, University of Florida, GainesvilleGoogle Scholar
  • Rockafellar R. T., Uryasev S., Zabarankin M. Generalized deviations in risk analysis. Finance Stochastics (2006) 10:51–74CrossrefGoogle Scholar
  • Rockafellar R. T., Uryasev S., Zabarankin M. Optimality conditions in portfolio analysis with general deviation measures. Math. Programming, Ser. B (2006) 108:515–540CrossrefGoogle Scholar
  • Rockafellar R. T., Uryasev S., Zabarankin M. Master funds in portfolio analysis with general deviation measures. J. Banking Finance (2006) 30:743–778CrossrefGoogle Scholar
  • Ruszczyński A., Shapiro A. Optimization of convex risk functions. Math. Oper. Res. (2006) 31:433–452LinkGoogle Scholar
  • Ruszczyński A., Shapiro A. Conditional risk mappings. Math. Oper. Res. (2006) 31:544–561LinkGoogle Scholar
  • Trindade A. A., Uryasev S., Shapiro A., Zrazhevsky G. Financial prediction with constrained tail risk. J. Banking Finance (2007) 31:3524–3538CrossrefGoogle Scholar
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