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Line 1: {{Short description\|Mathematical optimization theory}} '''Robust optimization''' is a field of [[optimization (mathematics)\|optimization]] theory that deals with optimization problems in which a certain measure of robustness is sought against [[uncertainty]] that can be represented as deterministic variability in the value of the parameters of the problem itself and/or its solution. '''Robust optimization''' is a field of [[mathematical optimization]] theory that deals with optimization problems in which a certain measure of robustness is sought against [[uncertainty]] that can be represented as deterministic variability in the value of the parameters of the problem itself and/or its solution. It is related to, but often distinguished from, [[probabilistic optimization]] methods such as chance-constrained optimization.<ref>{{cite journal \| doi=10.3390/en15030825 \| doi-access=free \| title=Probabilistic Optimization Techniques in Smart Power System \| date=2022 \| last1=Riaz \| first1=Muhammad \| last2=Ahmad \| first2=Sadiq \| last3=Hussain \| first3=Irshad \| last4=Naeem \| first4=Muhammad \| last5=Mihet-Popa \| first5=Lucian \| journal=Energies \| volume=15 \| issue=3 \| page=825 \| hdl=11250/2988376 \| hdl-access=free }}</ref><ref>{{Cite web\| title=Robust Optimization: Chance Constraints \| date=2008-04-28 \| url=https://people.eecs.berkeley.edu/~elghaoui/Teaching/EE227A/lecture24.pdf \| archive-url=https://web.archive.org/web/20230605233436/https://people.eecs.berkeley.edu/~elghaoui/Teaching/EE227A/lecture24.pdf \| archive-date=2023-06-05}}</ref> == History == The origins of robust optimization date back to the establishment of modern [[decision theory]] in the 1950s and the use of '''worst case analysis''' and [[Wald's maximin model]] as a tool for the treatment of severe uncertainty. It became a discipline of its own in the 1970s with parallel developments in several scientific and technological fields. Over the years, it has been applied in [[statistics]], but also in [[operations research]],<ref>{{cite journal\|last=Bertsimas\|first=Dimitris\|author2=Sim, Melvyn \|title=The Price of Robustness\|journal=Operations Research\|year=2004\|volume=52\|issue=1\|pages=35–53\|doi=10.1287/opre.1030.0065\|hdl=2268/253225 \|s2cid=8946639 \|hdl-access=free}}</ref> [[electrical engineering]],<ref>{{Cite journal \|last1=Giraldo \|first1=Juan S. \|last2=Castrillon \|first2=Jhon A. \|last3=Lopez \|first3=Juan Camilo \|last4=Rider \|first4=Marcos J. \|last5=Castro \|first5=Carlos A. \|date=July 2019 \|title=Microgrids Energy Management Using Robust Convex Programming \|journal=IEEE Transactions on Smart Grid \|volume=10 \|issue=4 \|pages=4520–4530 \|doi=10.1109/TSG.2018.2863049 \|bibcode=2019ITSG...10.4520G \|s2cid=115674048 \|issn=1949-3053}}</ref><ref name="VPP Robust 2015">{{Cite journal\| title = The design of a risk-hedging tool for virtual power plants via robust optimization approach \| journal= Applied Energy \| date = October 2015 \| doi = 10.1016/j.apenergy.2015.06.059 \| author = Shabanzadeh M \| volume = 155 \| pages = 766–777 \| last2 = Sheikh-El-Eslami \| first2 = M-K \|last3 = Haghifam \| first3 = P\|last4 = M-R\| bibcode= 2015ApEn..155..766S }}</ref><ref name="RO2015">{{Cite book~~\| title = Generation Maintenance Scheduling via robust optimization \| journal= 23rd Iranian Conference in Electrical Engineering (ICEE)~~ \| pages= 1504–1509 \| date = July 2015 \| doi = 10.1109/IranianCEE.2015.7146458 \| author = Shabanzadeh M \| last2 = Fattahi \| first2 = M \| title= 2015 23rd Iranian Conference on Electrical Engineering \| chapter= Generation Maintenance Scheduling via robust optimization \| isbn= 978-1-4799-1972-7 \| s2cid= 8774918 }}</ref> [[control theory]],<ref>{{cite journal\|last=Khargonekar\|first=P.P.\|author2=Petersen, I.R. \|author3=Zhou, K. \|title=Robust stabilization of uncertain linear systems: quadratic stabilizability and H/sup infinity / control theory\|journal=IEEE Transactions on Automatic Control\|volume=35\|issue=3\|pages=356–361\|doi=10.1109/9.50357\|year=1990}}</ref> [[finance]],<ref>[https://books.google.com/books?id=p6UHHfkQ9Y8C~~&lpg=PR11&ots=AqlJfX5Z0X~~&dq=economics%20robust%20optimization~~&lr&hl=it~~&pg=PR11~~#v=onepage&q&f=false%20~~ Robust portfolio optimization]</ref> [[Investment management\|portfolio management]]<ref>Md. Asadujjaman and Kais Zaman, "Robust Portfolio Optimization under Data Uncertainty" 15th National Statistical Conference, December 2014, Dhaka, Bangladesh.</ref> [[logistics]],<ref>{{cite journal\|last=Yu\|first=Chian-Son\|author2=Li, Han-Lin \|title=A robust optimization model for stochastic logistic problems\|journal=International Journal of Production Economics\|volume=64\|issue=1–3\|pages=385–397\|doi=10.1016/S0925-5273(99)00074-2\|year=2000}}</ref> [[manufacturing engineering]],<ref>{{cite journal\|last=Strano\|first=M\|title=Optimization under uncertainty of sheet-metal-forming processes by the finite element method\|journal=Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture\|volume=220\|issue=8\|pages=1305–1315\|doi=10.1243/09544054JEM480\|year=2006\|s2cid=108843522}}</ref> [[chemical engineering]],<ref>{{cite journal\|last=Bernardo\|first=Fernando P.\|author2=Saraiva, Pedro M. \|title=Robust optimization framework for process parameter and tolerance design\|journal=AIChE Journal\|year=1998\|volume=44\|issue=9\|pages=2007–2017\|doi=10.1002/aic.690440908\|bibcode=1998AIChE..44.2007B \|hdl=10316/8195\|hdl-access=free}}</ref> [[medicine]],<ref>{{cite journal\|last=Chu\|first=Millie\|author2=Zinchenko, Yuriy \|author3=Henderson, Shane G \|author4= Sharpe, Michael B \|title=Robust optimization for intensity modulated radiation therapy treatment planning under uncertainty\|journal=Physics in Medicine and Biology\|year=2005\|volume=50\|issue=23\|pages=5463–5477\|doi=10.1088/0031-9155/50/23/003\|pmid=16306645\|bibcode=2005PMB....50.5463C \|s2cid=15713904 }}</ref> and [[computer science]]. In [[engineering]] problems, these formulations often take the name of "Robust Design Optimization", RDO or "Reliability Based Design Optimization", RBDO. == Example 1== Line 97 ⟶ 98: : <math>\max_{x\in X}\min_{u\in U(x)} f(x,u)</math> where the <math>\max</math> represents the decision maker, the <math>\min</math> represents Nature, namely [[uncertainty]], <math>X</math> represents the decision space and <math>U(x)</math> denotes the set of possible values of <math>u</math> associated with decision <math>x</math>. This is the ''classic'' format of the generic model, and is often referred to as ''minimax'' or ''maximin'' optimization problem. The non-probabilistic ('''deterministic''') model has been and is being extensively used for robust optimization especially in the field of signal processing.<ref>{{cite journal \| last1 = Verdu \| first1 = S. \| last2 = Poor \| first2 = H. V. \| year = 1984 \| title = On Minimax Robustness: A general approach and applications \| journal = IEEE Transactions on Information Theory \| volume = 30 \| issue = 2\| pages = 328–340 \| doi=10.1109/tit.1984.1056876\| citeseerx = 10.1.1.132.837 }}</ref><ref>{{cite journal \| last1 = Kassam \| first1 = S. A. \| last2 = Poor \| first2 = H. V. \| year = 1985 \| title = Robust Techniques for Signal Processing: A Survey \| journal = Proceedings of the IEEE \| volume = 73 \| issue = 3\| pages = 433–481 \| doi=10.1109/proc.1985.13167\| hdl = 2142/74118 \| s2cid = 30443041 \| hdl-access = free }}</ref><ref>M. Danish Nisar. [~~http~~https://www.shaker.eu/shop/978-3-8440-0332-1 "Minimax Robustness in Signal Processing for Communications"], Shaker Verlag, {{ISBN\|978-3-8440-0332-1}}, August 2011.</ref> The equivalent [[mathematical programming]] (MP) of the classic format above is Line 115 ⟶ 116: ===Robust counterpart=== The solution method to many robust program involves creating a deterministic equivalent, called the robust counterpart. The practical difficulty of a robust program depends on if its robust counterpart is computationally tractable.<ref>Ben-Tal A., El Ghaoui, L. and Nemirovski, A. (2009). Robust Optimization. ''Princeton Series in Applied Mathematics,'' Princeton University Press, 9-16.</ref><ref>[[Sven Leyffer\|Leyffer S.]], Menickelly M., Munson T., Vanaret C. and Wild S. M (2020). A survey of nonlinear robust optimization. ''INFOR: Information Systems and Operational Research,'' Taylor \& Francis.</ref> == See also == Line 124 ⟶ 125: * [[Robust statistics]] * [[Robust decision making]] * [[Robust fuzzy programming]] * [[Stochastic programming]] * [[Stochastic optimization]] Line 135 ⟶ 137: == Further reading == H.J. Greenberg. Mathematical Programming Glossary. World Wide Web, http://glossary.computing.society.informs.org/, 1996-2006. Edited by the INFORMS Computing Society. {{cite journal \| last1 = Ben-Tal \| first1 = A. \| last2 = Nemirovski \| first2 = A. \| year = 1998 \| title = Robust Convex Optimization \| journal = [[Mathematics of Operations Research]] \| volume = 23 \| issue = 4\| pages = 769–805 \| doi=10.1287/moor.23.4.769\| citeseerx = 10.1.1.135.798 \| s2cid = 15905691 }} {{cite journal \| last1 = Ben-Tal \| first1 = A. \| last2 = Nemirovski \| first2 = A. \| year = 1999 \| title = Robust solutions to uncertain linear programs \| journal = [[Operations Research Letters]] \| volume = 25 \| pages = 1–13 \| doi=10.1016/s0167-6377(99)00016-4\| citeseerx = 10.1.1.424.861 }} {{cite journal \| last1 = Ben-Tal \| first1 = A. \| last2 = Arkadi Nemirovski \| first2 = A. \| year = 2002 \| title = Robust optimization—methodology and applications \| journal = Mathematical Programming, Series B \| volume = 92 \| issue = 3\| pages = 453–480 \| doi=10.1007/s101070100286\| citeseerx = 10.1.1.298.7965 \| s2cid = 1429482 }} Ben-Tal A., El Ghaoui, L. and Nemirovski, A. (2006). ''Mathematical Programming, Special issue on Robust Optimization,'' Volume 107(1-2). Ben-Tal A., El Ghaoui, L. and Nemirovski, A. (2009). Robust Optimization. ''Princeton Series in Applied Mathematics,'' Princeton University Press. {{cite journal \| last1 = Bertsimas \| first1 = D. \| last2 = Sim \| first2 = M. \| year = 2003 \| title = Robust Discrete Optimization and Network Flows \| journal = Mathematical Programming \| volume = 98 \| issue = 1–3\| pages = 49–71 \| doi=10.1007/s10107-003-0396-4\| citeseerx = 10.1.1.392.4470 \| s2cid = 1279073 }} {{cite journal \| last1 = Bertsimas \| first1 = D. \| last2 = Sim \| first2 = M. \| year = 2006 \| title = Tractable Approximations to Robust Conic Optimization Problems Dimitris Bertsimas \| journal = Mathematical Programming \| volume = 107 \| issue = 1\| pages = 5–36 \| doi=10.1007/s10107-005-0677-1\| citeseerx = 10.1.1.207.8378 \| s2cid = 900938 }} {{cite journal \| last1 = Chen \| first1 = W. \| last2 = Sim \| first2 = M. \| year = 2009 \| title = Goal Driven Optimization \| journal = Operations Research \| volume = 57 \| issue = 2\| pages = 342–357 \| doi=10.1287/opre.1080.0570 \| url = http://scholarbank.nus.edu.sg/handle/10635/43946 }} {{cite journal \| last1 = Chen \| first1 = X. \| last2 = Sim \| first2 = M. \| last3 = Sun \| first3 = P. \| last4 = Zhang \| first4 = J. \| year = 2008 \| title = A Linear-Decision Based Approximation Approach to Stochastic Programming \| journal = Operations Research \| volume = 56 \| issue = 2\| pages = 344–357 \| doi=10.1287/opre.1070.0457}} {{cite journal \| last1 = Chen \| first1 = X. \| last2 = Sim \| first2 = M. \| last3 = Sun \| first3 = P. \| year = 2007 \| title = A Robust Optimization Perspective on Stochastic Programming \| journal = Operations Research \| volume = 55 \| issue = 6\| pages = 1058–1071 \| doi=10.1287/opre.1070.0441 \| url = http://scholarbank.nus.edu.sg/handle/10635/44052 }} {{cite journal \| last1 = Dembo \| first1 = R \| year = 1991 \| title = Scenario optimization \| journal = Annals of Operations Research \| volume = 30 \| issue = 1\| pages = 63–80 \| doi=10.1007/bf02204809\| s2cid = 44126126 }} * Dodson, B., Hammett, P., and Klerx, R. (2014) ''Probabilistic Design for Optimization and Robustness for Engineers'' John Wiley & Sons, Inc. {{ISBN\|978-1-118-79619-1}} {{cite journal \| last1 = Gupta \| first1 = S.K. \| last2 = Rosenhead \| first2 = J. \| year = 1968 \| title = Robustness in sequential investment decisions \| doi = 10.1287/mnsc.15.2.B18 \| journal = Management Science \| volume = 15 \| issue = 2\| pages = 18–29 }} Kouvelis P. and Yu G. (1997). ''Robust Discrete Optimization and Its Applications,'' Kluwer. {{cite journal \| last1 = Mutapcic \| first1 = Almir \| last2 = Boyd \| first2 = Stephen \| year = 2009 \| title = Cutting-set methods for robust convex optimization with pessimizing oracles \| journal = Optimization Methods and Software \| volume = 24 \| issue = 3\| pages = 381–406 \| doi=10.1080/10556780802712889\| citeseerx = 10.1.1.416.4912 \| s2cid = 16443437 }} {{cite journal \| last1 = Mulvey \| first1 = J.M. \| last2 = Vanderbei \| first2 = R.J. \| last3 = Zenios \| first3 = S.A. \| year = 1995 \| title = Robust Optimization of Large-Scale Systems \| journal = Operations Research \| volume = 43 \| issue = 2\| pages = 264–281 \| doi=10.1287/opre.43.2.264}} Nejadseyfi, O., Geijselaers H.J.M, van den Boogaard A.H. (2018). "Robust optimization based on analytical evaluation of uncertainty propagation". ''Engineering Optimization'' '''51''' (9): 1581-1603. [[doi:10.1080/0305215X.2018.1536752]]. {{cite journal \| last1 = Rosenblat \| first1 = M.J. \| year = 1987 \| title = A robust approach to facility design \| journal = International Journal of Production Research \| volume = 25 \| issue = 4\| pages = 479–486 \| doi = 10.1080/00207548708919855 }} {{cite journal \| last1 = Rosenhead \| first1 = M.J \| last2 = Elton \| first2 = M \| last3 = Gupta \| first3 = S.K. \| year = 1972 \| title = Robustness and Optimality as Criteria for Strategic Decisions \| journal = Operational Research Quarterly \| volume = 23 \| issue = 4\| pages = 413–430 \| doi=10.2307/3007957\| jstor = 3007957 }} Line 157 ⟶ 160: {{cite journal \| last1 = Sniedovich \| first1 = M \| year = 2008 \| title = Wald's Maximin Model: a Treasure in Disguise! \| journal = Journal of Risk Finance \| volume = 9 \| issue = 3\| pages = 287–291 \| doi=10.1108/15265940810875603}} {{cite journal \| last1 = Sniedovich \| first1 = M \| year = 2010 \| title = A bird's view of info-gap decision theory \| journal = Journal of Risk Finance \| volume = 11 \| issue = 3\| pages = 268–283 \| doi=10.1108/15265941011043648}} {{cite journal \| last1 = Wald \| first1 = A \| year = 1939 \| title = Contributions to the theory of statistical estimation and testing hypotheses \| journal = The Annals of ~~Mathematics~~Mathematical Statistics\| volume = 10 \| issue = 4\| pages = 299–326 \| doi=10.1214/aoms/1177732144\| doi-access = free }} {{cite journal \| last1 = Wald \| first1 = A \| year = 1945 \| title = Statistical decision functions which minimize the maximum risk \| journal = The Annals of Mathematics \| volume = 46 \| issue = 2\| pages = 265–280 \| doi=10.2307/1969022\| jstor = 1969022 }} Wald, A. (1950). ''Statistical Decision Functions,'' John Wiley, NY. {{cite book \|doi=10.1109/IranianCEE.2015.7146458\|isbn=978-1-4799-1972-7\|chapter=Generation Maintenance Scheduling via robust optimization\|title=2015 23rd Iranian Conference on Electrical Engineering\|year=2015\|last1=Shabanzadeh\|first1=Morteza\|last2=Fattahi\|first2=Mohammad\|pages=1504–1509\|s2cid=8774918 }} ==External links== [~~http~~https://www.robustopt.com ROME: Robust Optimization Made Easy] * [http://robust.moshe-online.com: Robust Decision-Making Under Severe Uncertainty] * [https://robustimizer.com/ Robustimizer: Robust optimization software] {{Major subfields of optimization}} [[Category:Mathematical optimization]]