1 / 35

Forward and Backward Deviation Measures and Robust Optimization

Forward and Backward Deviation Measures and Robust Optimization. Peng Sun (Duke) with Xin Chen (UIUC) and Melvyn Sim (NUS). Agenda. Overview of Robust Optimization Forward and Backward Deviation Measures Uncertainty Sets and Probability Bounds Conclusions. Uncertain linear constraints.

knoton
Download Presentation

Forward and Backward Deviation Measures and Robust Optimization

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Forward and Backward Deviation Measures and Robust Optimization Peng Sun (Duke) with Xin Chen (UIUC) and Melvyn Sim (NUS)

  2. Agenda • Overview of Robust Optimization • Forward and Backward Deviation Measures • Uncertainty Sets and Probability Bounds • Conclusions

  3. Uncertain linear constraints • Uncertain linear constraint • Chance constraint • Hard to solve when  is small

  4. Linear constraints with uncertainty • Affine Uncertainty : zero mean, independent but not necessarily identically distributed

  5. Overview of Robust Optimization • Worst case • Relies only on the distribution support • Easy to solve (Soyster 1973) • Extremely conservative

  6. Overview of Robust Optimization • Goal of Robust Optimization: • Easy to obtain feasible solutions that satisfy chance constraint • Not as conservative as worst case

  7. Overview of Robust Optimization • Design of Uncertainty Set • Subset of worst case set, W • : Budget of uncertainty • Control radius of uncertainty set, S • max: Worse case budget • For reasonable probability bound,  << max

  8. Overview of Robust Optimization • Robust Counterpart • Semi-infinite constraint • Tractability • Polyhedral Uncertainty Set • Linear Programming (LP) • Conic Quadratic Uncertainty Set • Second Order Cone Programming (SOCP)

  9. Overview of Robust Optimization • Ellipsoidal Uncertainty Set • Ben-Tal and Nemirovski (1997), El-Ghaoui et al. (1996) • Robust Counterpart is a SOCP • Probability bound for symmetrically bounded uncertainties:

  10. Overview of Robust Optimization • Polyhedral Uncertainty Set • Bertsimas and Sim (2000) • Robust Counterpart is a LP • Probability bound for symmetrically bounded uncertainties: • More conservative compared to Ellipsoidal Uncertainty Set

  11. Overview of Robust Optimization • Norm Uncertainty Set • Robust Counterpart depends on the choice of norm • Probability bound for symmetrically bounded uncertainties:

  12. Overview of Robust Optimization • Modeling limitations of Classical Uncertainty Sets • Uncertainty set is symmetrical, but distributions are generally asymmetrical • Can we use more information on distributions to obtain less conservative solution in achieveing the same probability bound? --- Forward and Backward Deviation Measures

  13. Forward and Backward Deviation Measures • Set of forward deviation measures • Set of backward deviation measures

  14. Forward deviation Backward deviation Alternatively,

  15. Forward and Backward Deviation Measures • Key idea

  16. Important property • Subadditivity

  17. Least conservative forward and backward deviation measures • Suppose distribution is known • p* =q* if distribution is symmetrical • p*, q*¸ (standard deviation) • p* =q* =  if distribution is Normal

  18. Least conservative forward and backward deviation measures • p* ,q* can be obtained numerically • E.g: p* =q* = 0.58 for uniform distribution in [-1,1] • E.g:

  19. Forward and backward deviation measures – two point distribution example

  20. Distribution not known • Suppose distribution is bounded in [-1,1] (but not necessarily symmetrical)

  21. Only know mean and support

  22. Forward and Backward Deviation Measures: Function g()

  23. General Deviation Measures

  24. General Deviation Measure

  25. Agenda • Overview of Robust Optimization • Forward and Backward Deviation Measures • Uncertainty Sets and Probability Bounds • Conclusions

  26. Uncertainty Sets and Probability Bounds • Model of Data Uncertainty • Recall: Affine Uncertainty : zero mean, independent but not necessarily identically distributed

  27. Model of Data Uncertainty Uncertainty Sets and Probability Bounds

  28. Uncertainty Sets and Probability Bounds • New Uncertainty Set (Asymmetrical)

  29. Uncertainty Sets and Probability Bounds • Recall: Norm Uncertainty Set (Symmetrical)

  30. Uncertainty Sets and Probability Bounds • Generalizes Symmetrical Uncertainty Set

  31. Uncertainty Sets and Probability Bounds

  32. Uncertainty Sets and Probability Bounds

  33. Uncertainty Sets and Probability Bounds • Robust Counterpart

  34. Uncertainty Sets and Probability Bounds • Probability Bound • More information achieve less conservative solution while preserving the bound. E.g • pj=qj= 1 for symmetric distribution in [-1,1] • pj =qj= 0.58 for uniform distribution in [-1,1]

  35. Conclusions • RO framework • Affine uncertainty constraints • Independent r.v.’s with asymmetric distributions • Forward and backward Deviation measures • Defined from moment generating functions – implying probability bound • Sub-additivity – linear combinations • Easy to calculate and approximate from support information • Advantage -- less conservative solution • Next • Stochastic programming with chance constraints

More Related