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Operations research

January 01, 1970

For the academic journal, see Operations Research (journal).

Operations research (British English: operational research) (U.S. Air Force Specialty Code: Operations Analysis), often shortened to the initialism OR, is a discipline that deals with the development and application of analytical methods to improve decision-making.[1] The term management science is occasionally used as a synonym.[2]

Employing techniques from other mathematical sciences, such as modeling, statistics, and optimization, operations research arrives at optimal or near-optimal solutions to decision-making problems. Because of its emphasis on practical applications, operations research has overlapped with many other disciplines, notably industrial engineering. Operations research is often concerned with determining the extreme values of some real-world objective: the maximum (of profit, performance, or yield) or minimum (of loss, risk, or cost). Originating in military efforts before World War II, its techniques have grown to concern problems in a variety of industries.[3]

Overview edit

Operational research (OR) encompasses the development and the use of a wide range of problem-solving techniques and methods applied in the pursuit of improved decision-making and efficiency, such as simulation, mathematical optimization, queueing theory and other stochastic-process models, Markov decision processes, econometric methods, data envelopment analysis, ordinal priority approach, neural networks, expert systems, decision analysis, and the analytic hierarchy process.[4] Nearly all of these techniques involve the construction of mathematical models that attempt to describe the system. Because of the computational and statistical nature of most of these fields, OR also has strong ties to computer science and analytics. Operational researchers faced with a new problem must determine which of these techniques are most appropriate given the nature of the system, the goals for improvement, and constraints on time and computing power, or develop a new technique specific to the problem at hand (and, afterwards, to that type of problem).

The major sub-disciplines (but not limited to) in modern operational research, as identified by the journal Operations Research[5] and The Journal of the Operational Research Society [6] are:

History edit

In the decades after the two world wars, the tools of operations research were more widely applied to problems in business, industry, and society. Since that time, operational research has expanded into a field widely used in industries ranging from petrochemicals to airlines, finance, logistics, and government, moving to a focus on the development of mathematical models that can be used to analyse and optimize sometimes complex systems, and has become an area of active academic and industrial research.[3]

Historical origins edit

In the 17th century, mathematicians Blaise Pascal and Christiaan Huygens solved problems involving sometimes complex decisions (problem of points) by using game-theoretic ideas and expected values; others, such as Pierre de Fermat and Jacob Bernoulli, solved these types of problems using combinatorial reasoning instead.[7] Charles Babbage's research into the cost of transportation and sorting of mail led to England's universal "Penny Post" in 1840, and to studies into the dynamical behaviour of railway vehicles in defence of the GWR's broad gauge.[8] Beginning in the 20th century, study of inventory management could be considered[by whom?] the origin of modern operations research with economic order quantity developed by Ford W. Harris in 1913. Operational research may[original research?] have originated in the efforts of military planners during World War I (convoy theory and Lanchester's laws). Percy Bridgman brought operational research to bear on problems in physics in the 1920s and would later attempt to extend these to the social sciences.[9]

Modern operational research originated at the Bawdsey Research Station in the UK in 1937 as the result of an initiative of the station's superintendent, A. P. Rowe and Robert Watson-Watt.[10] Rowe conceived the idea as a means to analyse and improve the working of the UK's early-warning radar system, code-named "Chain Home" (CH). Initially, Rowe analysed the operating of the radar equipment and its communication networks, expanding later to include the operating personnel's behaviour. This revealed unappreciated limitations of the CH network and allowed remedial action to be taken.[11]

Scientists in the United Kingdom (including Patrick Blackett (later Lord Blackett OM PRS), Cecil Gordon, Solly Zuckerman, (later Baron Zuckerman OM, KCB, FRS), C. H. Waddington, Owen Wansbrough-Jones, Frank Yates, Jacob Bronowski and Freeman Dyson), and in the United States (George Dantzig) looked for ways to make better decisions in such areas as logistics and training schedules.

Second World War edit

The modern field of operational research arose during World War II.[dubious discuss] In the World War II era, operational research was defined as "a scientific method of providing executive departments with a quantitative basis for decisions regarding the operations under their control".[12] Other names for it included operational analysis (UK Ministry of Defence from 1962)[13] and quantitative management.[14]

During the Second World War close to 1,000 men and women in Britain were engaged in operational research. About 200 operational research scientists worked for the British Army.[15]

Patrick Blackett worked for several different organizations during the war. Early in the war while working for the Royal Aircraft Establishment (RAE) he set up a team known as the "Circus" which helped to reduce the number of anti-aircraft artillery rounds needed to shoot down an enemy aircraft from an average of over 20,000 at the start of the Battle of Britain to 4,000 in 1941.[16]

 
A Liberator in standard RAF green/dark earth/black night bomber finish as originally used by Coastal Command

In 1941, Blackett moved from the RAE to the Navy, after first working with RAF Coastal Command, in 1941 and then early in 1942 to the Admiralty.[17] Blackett's team at Coastal Command's Operational Research Section (CC-ORS) included two future Nobel prize winners and many other people who went on to be pre-eminent in their fields.[18][19] They undertook a number of crucial analyses that aided the war effort. Britain introduced the convoy system to reduce shipping losses, but while the principle of using warships to accompany merchant ships was generally accepted, it was unclear whether it was better for convoys to be small or large. Convoys travel at the speed of the slowest member, so small convoys can travel faster. It was also argued that small convoys would be harder for German U-boats to detect. On the other hand, large convoys could deploy more warships against an attacker. Blackett's staff showed that the losses suffered by convoys depended largely on the number of escort vessels present, rather than the size of the convoy. Their conclusion was that a few large convoys are more defensible than many small ones.[20]

While performing an analysis of the methods used by RAF Coastal Command to hunt and destroy submarines, one of the analysts asked what colour the aircraft were. As most of them were from Bomber Command they were painted black for night-time operations. At the suggestion of CC-ORS a test was run to see if that was the best colour to camouflage the aircraft for daytime operations in the grey North Atlantic skies. Tests showed that aircraft painted white were on average not spotted until they were 20% closer than those painted black. This change indicated that 30% more submarines would be attacked and sunk for the same number of sightings.[21] As a result of these findings Coastal Command changed their aircraft to using white undersurfaces.

Other work by the CC-ORS indicated that on average if the trigger depth of aerial-delivered depth charges were changed from 100 to 25 feet, the kill ratios would go up. The reason was that if a U-boat saw an aircraft only shortly before it arrived over the target then at 100 feet the charges would do no damage (because the U-boat wouldn't have had time to descend as far as 100 feet), and if it saw the aircraft a long way from the target it had time to alter course under water so the chances of it being within the 20-foot kill zone of the charges was small. It was more efficient to attack those submarines close to the surface when the targets' locations were better known than to attempt their destruction at greater depths when their positions could only be guessed. Before the change of settings from 100 to 25 feet, 1% of submerged U-boats were sunk and 14% damaged. After the change, 7% were sunk and 11% damaged; if submarines were caught on the surface but had time to submerge just before being attacked, the numbers rose to 11% sunk and 15% damaged. Blackett observed "there can be few cases where such a great operational gain had been obtained by such a small and simple change of tactics".[22]

 
Map of Kammhuber Line

Bomber Command's Operational Research Section (BC-ORS), analyzed a report of a survey carried out by RAF Bomber Command.[citation needed] For the survey, Bomber Command inspected all bombers returning from bombing raids over Germany over a particular period. All damage inflicted by German air defenses was noted and the recommendation was given that armor be added in the most heavily damaged areas. This recommendation was not adopted because the fact that the aircraft were able to return with these areas damaged indicated the areas were not vital, and adding armor to non-vital areas where damage is acceptable reduces aircraft performance. Their suggestion to remove some of the crew so that an aircraft loss would result in fewer personnel losses, was also rejected by RAF command. Blackett's team made the logical recommendation that the armor be placed in the areas which were completely untouched by damage in the bombers who returned. They reasoned that the survey was biased, since it only included aircraft that returned to Britain. The areas untouched in returning aircraft were probably vital areas, which, if hit, would result in the loss of the aircraft.[23] This story has been disputed,[24] with a similar damage assessment study completed in the US by the Statistical Research Group at Columbia University,[25] the result of work done by Abraham Wald.[26]

When Germany organized its air defences into the Kammhuber Line, it was realized by the British that if the RAF bombers were to fly in a bomber stream they could overwhelm the night fighters who flew in individual cells directed to their targets by ground controllers. It was then a matter of calculating the statistical loss from collisions against the statistical loss from night fighters to calculate how close the bombers should fly to minimize RAF losses.[27]

The "exchange rate" ratio of output to input was a characteristic feature of operational research. By comparing the number of flying hours put in by Allied aircraft to the number of U-boat sightings in a given area, it was possible to redistribute aircraft to more productive patrol areas. Comparison of exchange rates established "effectiveness ratios" useful in planning. The ratio of 60 mines laid per ship sunk was common to several campaigns: German mines in British ports, British mines on German routes, and United States mines in Japanese routes.[28]

Operational research doubled the on-target bomb rate of B-29s bombing Japan from the Marianas Islands by increasing the training ratio from 4 to 10 percent of flying hours; revealed that wolf-packs of three United States submarines were the most effective number to enable all members of the pack to engage targets discovered on their individual patrol stations; revealed that glossy enamel paint was more effective camouflage for night fighters than conventional dull camouflage paint finish, and a smooth paint finish increased airspeed by reducing skin friction.[28]

On land, the operational research sections of the Army Operational Research Group (AORG) of the Ministry of Supply (MoS) were landed in Normandy in 1944, and they followed British forces in the advance across Europe. They analyzed, among other topics, the effectiveness of artillery, aerial bombing and anti-tank shooting.

After World War II edit

In 1947, under the auspices of the British Association, a symposium was organized in Dundee. In his opening address, Watson-Watt offered a definition of the aims of OR:

"To examine quantitatively whether the user organization is getting from the operation of its equipment the best attainable contribution to its overall objective."[10]

With expanded techniques and growing awareness of the field at the close of the war, operational research was no longer limited to only operational, but was extended to encompass equipment procurement, training, logistics and infrastructure. Operations research also grew in many areas other than the military once scientists learned to apply its principles to the civilian sector. The development of the simplex algorithm for linear programming was in 1947.[29]

In the 1950s, the term Operations Research was used to describe heterogeneous mathematical methods such as game theory, dynamic programming, linear programming, warehousing, spare parts theory, queue theory, simulation and production control, which were used primarily in civilian industry. Scientific societies and journals on the subject of operations research were founded in the 1950s, such as the Operation Research Society of America (ORSA) in 1952 and the Institute for Management Science (TIMS) in 1953.[30] Philip Morse, the head of the Weapons Systems Evaluation Group of the Pentagon, became the first president of ORSA and attracted the companies of the military-industrial complex to ORSA, which soon had more than 500 members. In the 1960s, ORSA reached 8000 members.[citation needed] Consulting companies also founded OR groups. In 1953, Abraham Charnes and William Cooper published the first textbook on Linear Programming.[citation needed]

In the 1950s and 1960s, chairs of operations research were established in the U.S. and United Kingdom (from 1964 in Lancaster) in the management faculties of universities. Further influences from the U.S. on the development of operations research in Western Europe can be traced here. The authoritative[citation needed] OR textbooks from the U.S. were published in Germany in German language and in France in French (but not in Italian[citation needed]), such as the book by George Dantzig "Linear Programming"(1963) and the book by C. West Churchman et al. "Introduction to Operations Research"(1957). The latter was also published in Spanish in 1973, opening at the same time Latin American readers to Operations Research. NATO gave important impulses for the spread of Operations Research in Western Europe; NATO headquarters (SHAPE) organised four conferences on OR in the 1950s – the one in 1956 with 120 participants – bringing OR to mainland Europe. Within NATO, OR was also known as "Scientific Advisory" (SA) and was grouped together in the Advisory Group of Aeronautical Research and Development (AGARD). SHAPE and AGARD organized an OR conference in April 1957 in Paris. When France withdrew from the NATO military command structure, the transfer of NATO headquarters from France to Belgium led to the institutionalization of OR in Belgium, where Jacques Drèze founded CORE, the Center for Operations Research and Econometrics at the Catholic University of Leuven in 1966.[citation needed]

With the development of computers over the next three decades, Operations Research can now solve problems with hundreds of thousands of variables and constraints. Moreover, the large volumes of data required for such problems can be stored and manipulated very efficiently."[29] Much of operations research (modernly known as 'analytics') relies upon stochastic variables and a therefore access to truly random numbers. Fortunately, the cybernetics field also required the same level of randomness. The development of increasingly better random number generators has been a boon to both disciplines. Modern applications of operations research includes city planning, football strategies, emergency planning, optimizing all facets of industry and economy, and undoubtedly with the likelihood of the inclusion of terrorist attack planning and definitely counterterrorist attack planning. More recently, the research approach of operations research, which dates back to the 1950s, has been criticized for being collections of mathematical models but lacking an empirical basis of data collection for applications. How to collect data is not presented in the textbooks. Because of the lack of data, there are also no computer applications in the textbooks.[31]

Problems addressed edit

Operational research is also used extensively in government where evidence-based policy is used.

Management science edit

Main article: Management science

In 1967, Stafford Beer characterized the field of management science as "the business use of operations research".[34] Like operational research itself, management science (MS) is an interdisciplinary branch of applied mathematics devoted to optimal decision planning, with strong links with economics, business, engineering, and other sciences. It uses various scientific research-based principles, strategies, and analytical methods including mathematical modeling, statistics and numerical algorithms to improve an organization's ability to enact rational and meaningful management decisions by arriving at optimal or near-optimal solutions to sometimes complex decision problems. Management scientists help businesses to achieve their goals using the scientific methods of operational research.

The management scientist's mandate is to use rational, systematic, science-based techniques to inform and improve decisions of all kinds. Of course, the techniques of management science are not restricted to business applications but may be applied to military, medical, public administration, charitable groups, political groups or community groups.

Management science is concerned with developing and applying models and concepts that may prove useful in helping to illuminate management issues and solve managerial problems, as well as designing and developing new and better models of organizational excellence.[35]

The application of these models within the corporate sector became known as management science.[36]

Related fields edit

Some of the fields that have considerable overlap with Operations Research and Management Science include:[37]

Applications edit

Applications are abundant such as in airlines, manufacturing companies, service organizations, military branches, and government. The range of problems and issues to which it has contributed insights and solutions is vast. It includes:[35]

  • Scheduling (of airlines, trains, buses etc.)
  • Assignment (assigning crew to flights, trains or buses; employees to projects; commitment and dispatch of power generation facilities)
  • Facility location (deciding most appropriate location for new facilities such as warehouses; factories or fire station)
  • Hydraulics & Piping Engineering (managing flow of water from reservoirs)
  • Health Services (information and supply chain management)
  • Game Theory (identifying, understanding; developing strategies adopted by companies)
  • Urban Design
  • Computer Network Engineering (packet routing; timing; analysis)
  • Telecom & Data Communication Engineering (packet routing; timing; analysis)

[38]

Management is also concerned with so-called soft-operational analysis which concerns methods for strategic planning, strategic decision support, problem structuring methods. In dealing with these sorts of challenges, mathematical modeling and simulation may not be appropriate or may not suffice. Therefore, during the past 30 years[vague], a number of non-quantified modeling methods have been developed. These include:[citation needed]

Societies and journals edit

Societies edit

The International Federation of Operational Research Societies (IFORS)[39] is an umbrella organization for operational research societies worldwide, representing approximately 50 national societies including those in the US,[40] UK,[41] France,[42] Germany, Italy,[43] Canada,[44] Australia,[45] New Zealand,[46] Philippines,[47] India,[48] Japan and South Africa.[49] For the institutionalization of Operations Research, the foundation of the (IFORS) in 1960 was of decisive importance, which stimulated the foundation of national OR societies in Austria, Switzerland and Germany. IFORS held important international conferences every three years since 1957.[50] The constituent members of IFORS form regional groups, such as that in Europe, the Association of European Operational Research Societies (EURO).[51] Other important operational research organizations are Simulation Interoperability Standards Organization (SISO)[52] and Interservice/Industry Training, Simulation and Education Conference (I/ITSEC)[53]

In 2004, the US-based organization INFORMS began an initiative to market the OR profession better, including a website entitled The Science of Better[54] which provides an introduction to OR and examples of successful applications of OR to industrial problems. This initiative has been adopted by the Operational Research Society in the UK, including a website entitled Learn About OR.[55]

Journals of INFORMS edit

The Institute for Operations Research and the Management Sciences (INFORMS) publishes thirteen scholarly journals about operations research, including the top two journals in their class, according to 2005 Journal Citation Reports.[56] They are:

Other journals edit

These are listed in alphabetical order of their titles.

  • 4OR-A Quarterly Journal of Operations Research: jointly published the Belgian, French and Italian Operations Research Societies (Springer);
  • Decision Sciences published by Wiley-Blackwell on behalf of the Decision Sciences Institute
  • European Journal of Operational Research (EJOR): Founded in 1975 and is presently[when?] by far the largest operational research journal in the world, with its around 9,000 pages of published papers per year. In 2004, its total number of citations was the second largest amongst Operational Research and Management Science journals;
  • INFOR Journal: published and sponsored by the Canadian Operational Research Society;
  • Journal of Defense Modeling and Simulation (JDMS): Applications, Methodology, Technology: a quarterly journal devoted to advancing the science of modeling and simulation as it relates to the military and defense.[64]
  • Journal of the Operational Research Society (JORS): an official journal of The OR Society; this is the oldest continuously published journal of OR in the world, published by Taylor & Francis;
  • Military Operations Research (MOR): published by the Military Operations Research Society;
  • Omega - The International Journal of Management Science;
  • Operations Research Letters;
  • Opsearch: official journal of the Operational Research Society of India;
  • OR Insight: a quarterly journal of The OR Society published by Palgrave;[65]
  • Pesquisa Operacional, the official journal of the Brazilian Operations Research Society
  • Production and Operations Management, the official journal of the Production and Operations Management Society
  • TOP: the official journal of the Spanish Statistics and Operations Research Society.[66]

See also edit

References edit

  1. ^ "What is O.R.?". INFORMS.org. Retrieved 7 January 2012.
  2. ^ Wetherbe, James C. (1979), Systems analysis for computer-based information systems, West series in data processing and information systems, West Pub. Co., ISBN 9780829902280, A systems analyst who contributes in the area of DSS must be skilled in such areas as management science (synonymous with decision science and operation research), modeling, simulation, and advanced statistics.
  3. ^ a b "What is OR". HSOR.org. Retrieved 13 November 2011.
  4. ^ "Operations Research Analysts". Bls.gov. Retrieved 27 January 2012.
  5. ^ . INFORMS.org. 2 January 2009. Archived from the original on 27 May 2009. Retrieved 13 November 2011.
  6. ^ Petropoulos, Fotios; Laporte, Gilbert; Aktas, Emel; Alumur, Sibel A.; Archetti, Claudia; Ayhan, Hayriye; Battarra, Maria; Bennell, Julia A.; Bourjolly, Jean-Marie; Boylan, John E.; Breton, Michèle; Canca, David; Charlin, Laurent; Chen, Bo; Cicek, Cihan Tugrul (27 December 2023). "Operational Research: methods and applications". Journal of the Operational Research Society. 75 (3): 423–617. arXiv:2303.14217. doi:10.1080/01605682.2023.2253852. ISSN 0160-5682.
  7. ^ Shafer, G. (2018). Pascal's and Huygens's game-theoretic foundations for probability. [1]
  8. ^ M.S. Sodhi, "What about the 'O' in O.R.?" OR/MS Today, December, 2007, p. 12, http://www.lionhrtpub.com/orms/orms-12-07/frqed.html 14 July 2009 at the Wayback Machine
  9. ^ P. W. Bridgman, The Logic of Modern Physics, The MacMillan Company, New York, 1927.
  10. ^ a b Zuckerman, Solly (1964). "In the Beginning -- And Later". OR. 15 (4): 287–292. doi:10.2307/3007115. ISSN 1473-2858. JSTOR 3007115.
  11. ^ "operations research (industrial engineering) :: History – Britannica Online Encyclopedia". Britannica.com. Retrieved 13 November 2011.
  12. ^ "Operational Research in the British Army 1939–1945", October 1947, Report C67/3/4/48, UK National Archives file WO291/1301
    Quoted on the dust-jacket of: Morse, Philip M, and Kimball, George E, Methods of Operation Research, 1st edition revised, MIT Press & J Wiley, 5th printing, 1954.
  13. ^ UK National Archives Catalogue for WO291 lists a War Office organisation called Army Operational Research Group (AORG) that existed from 1946 to 1962. "In January 1962 the name was changed to Army Operational Research Establishment (AORE). Following the creation of a unified Ministry of Defence, a tri-service operational research organisation was established: the Defence Operational Research Establishment (DOAE) which was formed in 1965, and it the Army Operational Research Establishment based at West Byfleet."
  14. ^ (PDF). Archived from the original (PDF) on 12 August 2011. Retrieved 7 October 2009.{{cite web}}: CS1 maint: archived copy as title (link)
  15. ^ Kirby, p. 117 27 August 2013 at the Wayback Machine
  16. ^ Kirby, pp. 91–94 27 August 2013 at the Wayback Machine
  17. ^ Kirby, p. 96,109 2 October 2013 at the Wayback Machine
  18. ^ Kirby, p. 96 27 March 2014 at the Wayback Machine
  19. ^ Freeman Dyson, MIT Technology Review (1 November 2006) "A Failure of Intelligence: Part I"
  20. ^ ""Numbers are Essential": Victory in the North Atlantic Reconsidered, March–May 1943". Familyheritage.ca. 24 May 1943. Retrieved 13 November 2011.
  21. ^ Kirby, p. 101
  22. ^ (Kirby, pp. 102,103)
  23. ^ James F. Dunnigan (1999). Dirty Little Secrets of the Twentieth Century. Harper Paperbacks. pp. 215–217.
  24. ^ "Examine your assumptions – LessWrong".
  25. ^ Wallis, W. Allen (1980). "The Statistical Research Group, 1942–1945". Journal of the American Statistical Association. 75 (370): 320–330. doi:10.1080/01621459.1980.10477469.
  26. ^ Mangel, Marc; Samaniego, Francisco J (1984). "Abraham Wald's Work on Aircraft Survivability". Journal of the American Statistical Association. 79 (386): 259. doi:10.2307/2288257. JSTOR 2288257.
  27. ^ . Raf.mod.uk. Archived from the original on 5 November 2011. Retrieved 13 November 2011.
  28. ^ a b Milkman, Raymond H. (May 1968). "Operation Research in World War II". United States Naval Institute Proceedings. {{cite journal}}: Cite journal requires |journal= (help)
  29. ^ a b "1.2 A HISTORICAL PERSPECTIVE". PRINCIPLES AND APPLICATIONS OF OPERATIONS RESEARCH.
  30. ^ Richard Vahrenkamp: Mathematical Management – Operations Research in the United States and Western Europe, 1945 – 1990, in: Management Revue – Socio-Economic Studies, vol. 34 (2023), issue 1, pp. 69–91
  31. ^ Vahrenkamp, Richard (2019). "Nominal Science without Data: The Cold War Content of Game Theory and Operations Research" (PDF). Real World Economics Review. 88: 19–50..
  32. ^ "Factory Physics for Managers", E. S. Pound, J. H. Bell, and M. L. Spearman, McGraw-Hill, 2014, p 47
  33. ^ "New Era of Project Delivery – Project as Production System", R. G. Shenoy and T. R. Zabelle, Journal of Project Production Management, Vol 1, pp Nov 2016, pp. 13–24 https://www.researchgate.net/publication/312602707_New_Era_of_Project_Delivery_-_Project_as_Production_System
  34. ^ Stafford Beer (1967) Management Science: The Business Use of Operations Research
  35. ^ a b What is Management Science? 14 September 2008 at the Wayback Machine Lancaster University, 2008. Retrieved 5 June 2008.
  36. ^ What is Management Science? 7 December 2008 at the Wayback Machine The University of Tennessee, 2006. Retrieved 5 June 2008.
  37. ^ Merigó, José M; Yang, Jian-Bo (2017). "A bibliometric analysis of operations research and management science". Omega - International Journal of Management Science. 73: 37–48. doi:10.1016/j.omega.2016.12.004. ISSN 0305-0483.
  38. ^ . Archived from the original on 29 September 2017. Retrieved 28 June 2017.
  39. ^ "IFORS". IFORS. Retrieved 13 November 2011.
  40. ^ Leszczynski, Mary (8 November 2011). "Informs". Informs. Retrieved 13 November 2011.
  41. ^ "The OR Society". Orsoc.org.uk. Archived from the original on 24 April 2006. Retrieved 13 November 2011.
  42. ^ "Société française de Recherche Opérationnelle et d'Aide à la Décision". ROADEF. Retrieved 13 November 2011.
  43. ^ airo.org. "AIRO". airo.org. Retrieved 31 March 2018.
  44. ^ cors.ca. "CORS". Cors.ca. Retrieved 13 November 2011.
  45. ^ "ASOR". ASOR. 1 January 1972. Retrieved 13 November 2011.
  46. ^ "ORSNZ". ORSNZ. Retrieved 13 November 2011.
  47. ^ "ORSP". ORSP. Retrieved 13 November 2011.
  48. ^ "ORSI". Orsi.in. Retrieved 13 November 2011.
  49. ^ "ORSSA". ORSSA. 23 September 2011. Retrieved 13 November 2011.
  50. ^ Richard Vahrenkamp (2023), "Mathematical Management – Operations Research in the United States and Western Europe, 1945 – 1990", Management Revue – Socio-Economic Studies, vol. 34, no. 1, pp. 69–91, doi:10.5771/0935-9915-2023-1-69, S2CID 258937881
  51. ^ "EURO (EURO)". Euro-online.org. Retrieved 13 November 2011.
  52. ^ "SISO". Sisostds.org. Retrieved 13 November 2011.
  53. ^ "I/Itsec". I/Itsec. Retrieved 13 November 2011.
  54. ^ "The Science of Better". The Science of Better. Retrieved 13 November 2011.
  55. ^ . Learn about OR. Archived from the original on 15 November 2011. Retrieved 13 November 2011.
  56. ^ . Informs.org. Archived from the original on 9 March 2010. Retrieved 13 November 2011.
  57. ^ "Decision Analysis". Informs.org. Retrieved 19 March 2015.
  58. ^ "Information Systems Research". Informs.org. Retrieved 19 March 2015.
  59. ^ "INFORMS Journal on Computing". Informs.org. Retrieved 19 March 2015.
  60. ^ "INFORMS Transactions on Education". Informs.org. Retrieved 19 March 2015.
  61. ^ "Interfaces". Informs.org. Retrieved 19 March 2015.
  62. ^ "Organization Science". Informs.org. Retrieved 19 March 2015.
  63. ^ "Service Science". Informs.org. Retrieved 19 March 2015.
  64. ^ The Society for Modeling & Simulation International. . Scs.org. Archived from the original on 23 August 2009. Retrieved 13 November 2011.
  65. ^ The OR Society Archived 24 April 2006 at the Library of Congress Web Archives;
  66. ^ "TOP". Springer.com. Retrieved 13 November 2011.

Further reading edit

Classic books and articles edit

  • R. E. Bellman, Dynamic Programming, Princeton University Press, Princeton, 1957
  • Abraham Charnes, William W. Cooper, Management Models and Industrial Applications of Linear Programming, Volumes I and II, New York, John Wiley & Sons, 1961
  • Abraham Charnes, William W. Cooper, A. Henderson, An Introduction to Linear Programming, New York, John Wiley & Sons, 1953
  • C. West Churchman, Russell L. Ackoff & E. L. Arnoff, Introduction to Operations Research, New York: J. Wiley and Sons, 1957
  • George B. Dantzig, Linear Programming and Extensions, Princeton, Princeton University Press, 1963
  • Lester K. Ford, Jr., D. Ray Fulkerson, Flows in Networks, Princeton, Princeton University Press, 1962
  • Jay W. Forrester, Industrial Dynamics, Cambridge, MIT Press, 1961
  • L. V. Kantorovich, "Mathematical Methods of Organizing and Planning Production" Management Science, 4, 1960, 266–422
  • Ralph Keeney, Howard Raiffa, Decisions with Multiple Objectives: Preferences and Value Tradeoffs, New York, John Wiley & Sons, 1976
  • H. W. Kuhn, "The Hungarian Method for the Assignment Problem," Naval Research Logistics Quarterly, 1–2, 1955, 83–97
  • H. W. Kuhn, A. W. Tucker, "Nonlinear Programming," pp. 481–492 in Proceedings of the Second Berkeley Symposium on Mathematical Statistics and Probability
  • B. O. Koopman, Search and Screening: General Principles and Historical Applications, New York, Pergamon Press, 1980
  • Tjalling C. Koopmans, editor, Activity Analysis of Production and Allocation, New York, John Wiley & Sons, 1951
  • Charles C. Holt, Franco Modigliani, John F. Muth, Herbert A. Simon, Planning Production, Inventories, and Work Force, Englewood Cliffs, NJ, Prentice-Hall, 1960
  • Philip M. Morse, George E. Kimball, Methods of Operations Research, New York, MIT Press and John Wiley & Sons, 1951
  • Robert O. Schlaifer, Howard Raiffa, Applied Statistical Decision Theory, Cambridge, Division of Research, Harvard Business School, 1961

Classic textbooks edit

  • Taha, Hamdy A., "Operations Research: An Introduction", Pearson, 10th Edition, 2016
  • Frederick S. Hillier & Gerald J. Lieberman, Introduction to Operations Research, McGraw-Hill: Boston MA; 10th Edition, 2014
  • Robert J. Thierauf & Richard A. Grosse, "Decision Making Through Operations Research", John Wiley & Sons, INC, 1970
  • Harvey M. Wagner, Principles of Operations Research, Englewood Cliffs, Prentice-Hall, 1969
  • Wentzel (Ventsel), E. S. Introduction to Operations Research, Moscow: Soviet Radio Publishing House, 1964.

History edit

  • Saul I. Gass, Arjang A. Assad, An Annotated Timeline of Operations Research: An Informal History. New York, Kluwer Academic Publishers, 2005.
  • Saul I. Gass (Editor), Arjang A. Assad (Editor), Profiles in Operations Research: Pioneers and Innovators. Springer, 2011
  • Maurice W. Kirby (Operational Research Society (Great Britain)). Operational Research in War and Peace: The British Experience from the 1930s to 1970, Imperial College Press, 2003. ISBN 1-86094-366-7, ISBN 978-1-86094-366-9
  • J. K. Lenstra, A. H. G. Rinnooy Kan, A. Schrijver (editors) History of Mathematical Programming: A Collection of Personal Reminiscences, North-Holland, 1991
  • Charles W. McArthur, Operations Analysis in the U.S. Army Eighth Air Force in World War II, History of Mathematics, Vol. 4, Providence, American Mathematical Society, 1990
  • C. H. Waddington, O. R. in World War 2: Operational Research Against the U-boat, London, Elek Science, 1973.
  • Richard Vahrenkamp: Mathematical Management – Operations Research in the United States and Western Europe, 1945 – 1990, in: Management Revue – Socio-Economic Studies, vol. 34 (2023), issue 1, pp. 69–91.

External links edit

 
Wikimedia Commons has media related to Operations research.
 
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  • What is Operations Research?
  • International Federation of Operational Research Societies
  • The Institute for Operations Research and the Management Sciences (INFORMS)

January 01, 1970
operations, research, academic, journal, operations, research, journal, examples, perspective, this, article, represent, worldwide, view, subject, specific, issue, perspective, completely, neglected, george, dantzig, gets, passing, mention, onlyyou, improve, t. For the academic journal see Operations Research journal The examples and perspective in this article may not represent a worldwide view of the subject The specific issue is US perspective completely neglected George Dantzig gets a passing mention onlyYou may improve this article discuss the issue on the talk page or create a new article as appropriate December 2020 Learn how and when to remove this message Operations research British English operational research U S Air Force Specialty Code Operations Analysis often shortened to the initialism OR is a discipline that deals with the development and application of analytical methods to improve decision making 1 The term management science is occasionally used as a synonym 2 Employing techniques from other mathematical sciences such as modeling statistics and optimization operations research arrives at optimal or near optimal solutions to decision making problems Because of its emphasis on practical applications operations research has overlapped with many other disciplines notably industrial engineering Operations research is often concerned with determining the extreme values of some real world objective the maximum of profit performance or yield or minimum of loss risk or cost Originating in military efforts before World War II its techniques have grown to concern problems in a variety of industries 3 Contents 1 Overview 2 History 2 1 Historical origins 2 2 Second World War 2 3 After World War II 3 Problems addressed 4 Management science 4 1 Related fields 4 2 Applications 5 Societies and journals 5 1 Societies 5 2 Journals of INFORMS 5 3 Other journals 6 See also 7 References 8 Further reading 8 1 Classic books and articles 8 2 Classic textbooks 8 3 History 9 External linksOverview editOperational research OR encompasses the development and the use of a wide range of problem solving techniques and methods applied in the pursuit of improved decision making and efficiency such as simulation mathematical optimization queueing theory and other stochastic process models Markov decision processes econometric methods data envelopment analysis ordinal priority approach neural networks expert systems decision analysis and the analytic hierarchy process 4 Nearly all of these techniques involve the construction of mathematical models that attempt to describe the system Because of the computational and statistical nature of most of these fields OR also has strong ties to computer science and analytics Operational researchers faced with a new problem must determine which of these techniques are most appropriate given the nature of the system the goals for improvement and constraints on time and computing power or develop a new technique specific to the problem at hand and afterwards to that type of problem The major sub disciplines but not limited to in modern operational research as identified by the journal Operations Research 5 and The Journal of the Operational Research Society 6 are Computing and information technologies Financial engineering Manufacturing service sciences and supply chain management Policy modeling and public sector work Revenue management Simulation Stochastic models Transportation theory mathematics Game theory for strategies Linear programming Nonlinear programming Integer programming in NP complete problem specially for 0 1 integer linear programming for binary Dynamic programming in Aerospace engineering and Economics Information theory used in Cryptography Quantum computing Quadratic programming for solutions of Quadratic equation and Quadratic functionHistory editIn the decades after the two world wars the tools of operations research were more widely applied to problems in business industry and society Since that time operational research has expanded into a field widely used in industries ranging from petrochemicals to airlines finance logistics and government moving to a focus on the development of mathematical models that can be used to analyse and optimize sometimes complex systems and has become an area of active academic and industrial research 3 Historical origins edit In the 17th century mathematicians Blaise Pascal and Christiaan Huygens solved problems involving sometimes complex decisions problem of points by using game theoretic ideas and expected values others such as Pierre de Fermat and Jacob Bernoulli solved these types of problems using combinatorial reasoning instead 7 Charles Babbage s research into the cost of transportation and sorting of mail led to England s universal Penny Post in 1840 and to studies into the dynamical behaviour of railway vehicles in defence of the GWR s broad gauge 8 Beginning in the 20th century study of inventory management could be considered by whom the origin of modern operations research with economic order quantity developed by Ford W Harris in 1913 Operational research may original research have originated in the efforts of military planners during World War I convoy theory and Lanchester s laws Percy Bridgman brought operational research to bear on problems in physics in the 1920s and would later attempt to extend these to the social sciences 9 Modern operational research originated at the Bawdsey Research Station in the UK in 1937 as the result of an initiative of the station s superintendent A P Rowe and Robert Watson Watt 10 Rowe conceived the idea as a means to analyse and improve the working of the UK s early warning radar system code named Chain Home CH Initially Rowe analysed the operating of the radar equipment and its communication networks expanding later to include the operating personnel s behaviour This revealed unappreciated limitations of the CH network and allowed remedial action to be taken 11 Scientists in the United Kingdom including Patrick Blackett later Lord Blackett OM PRS Cecil Gordon Solly Zuckerman later Baron Zuckerman OM KCB FRS C H Waddington Owen Wansbrough Jones Frank Yates Jacob Bronowski and Freeman Dyson and in the United States George Dantzig looked for ways to make better decisions in such areas as logistics and training schedules Second World War edit The modern field of operational research arose during World War II dubious discuss In the World War II era operational research was defined as a scientific method of providing executive departments with a quantitative basis for decisions regarding the operations under their control 12 Other names for it included operational analysis UK Ministry of Defence from 1962 13 and quantitative management 14 During the Second World War close to 1 000 men and women in Britain were engaged in operational research About 200 operational research scientists worked for the British Army 15 Patrick Blackett worked for several different organizations during the war Early in the war while working for the Royal Aircraft Establishment RAE he set up a team known as the Circus which helped to reduce the number of anti aircraft artillery rounds needed to shoot down an enemy aircraft from an average of over 20 000 at the start of the Battle of Britain to 4 000 in 1941 16 nbsp A Liberator in standard RAF green dark earth black night bomber finish as originally used by Coastal Command In 1941 Blackett moved from the RAE to the Navy after first working with RAF Coastal Command in 1941 and then early in 1942 to the Admiralty 17 Blackett s team at Coastal Command s Operational Research Section CC ORS included two future Nobel prize winners and many other people who went on to be pre eminent in their fields 18 19 They undertook a number of crucial analyses that aided the war effort Britain introduced the convoy system to reduce shipping losses but while the principle of using warships to accompany merchant ships was generally accepted it was unclear whether it was better for convoys to be small or large Convoys travel at the speed of the slowest member so small convoys can travel faster It was also argued that small convoys would be harder for German U boats to detect On the other hand large convoys could deploy more warships against an attacker Blackett s staff showed that the losses suffered by convoys depended largely on the number of escort vessels present rather than the size of the convoy Their conclusion was that a few large convoys are more defensible than many small ones 20 While performing an analysis of the methods used by RAF Coastal Command to hunt and destroy submarines one of the analysts asked what colour the aircraft were As most of them were from Bomber Command they were painted black for night time operations At the suggestion of CC ORS a test was run to see if that was the best colour to camouflage the aircraft for daytime operations in the grey North Atlantic skies Tests showed that aircraft painted white were on average not spotted until they were 20 closer than those painted black This change indicated that 30 more submarines would be attacked and sunk for the same number of sightings 21 As a result of these findings Coastal Command changed their aircraft to using white undersurfaces Other work by the CC ORS indicated that on average if the trigger depth of aerial delivered depth charges were changed from 100 to 25 feet the kill ratios would go up The reason was that if a U boat saw an aircraft only shortly before it arrived over the target then at 100 feet the charges would do no damage because the U boat wouldn t have had time to descend as far as 100 feet and if it saw the aircraft a long way from the target it had time to alter course under water so the chances of it being within the 20 foot kill zone of the charges was small It was more efficient to attack those submarines close to the surface when the targets locations were better known than to attempt their destruction at greater depths when their positions could only be guessed Before the change of settings from 100 to 25 feet 1 of submerged U boats were sunk and 14 damaged After the change 7 were sunk and 11 damaged if submarines were caught on the surface but had time to submerge just before being attacked the numbers rose to 11 sunk and 15 damaged Blackett observed there can be few cases where such a great operational gain had been obtained by such a small and simple change of tactics 22 nbsp Map of Kammhuber Line Bomber Command s Operational Research Section BC ORS analyzed a report of a survey carried out by RAF Bomber Command citation needed For the survey Bomber Command inspected all bombers returning from bombing raids over Germany over a particular period All damage inflicted by German air defenses was noted and the recommendation was given that armor be added in the most heavily damaged areas This recommendation was not adopted because the fact that the aircraft were able to return with these areas damaged indicated the areas were not vital and adding armor to non vital areas where damage is acceptable reduces aircraft performance Their suggestion to remove some of the crew so that an aircraft loss would result in fewer personnel losses was also rejected by RAF command Blackett s team made the logical recommendation that the armor be placed in the areas which were completely untouched by damage in the bombers who returned They reasoned that the survey was biased since it only included aircraft that returned to Britain The areas untouched in returning aircraft were probably vital areas which if hit would result in the loss of the aircraft 23 This story has been disputed 24 with a similar damage assessment study completed in the US by the Statistical Research Group at Columbia University 25 the result of work done by Abraham Wald 26 When Germany organized its air defences into the Kammhuber Line it was realized by the British that if the RAF bombers were to fly in a bomber stream they could overwhelm the night fighters who flew in individual cells directed to their targets by ground controllers It was then a matter of calculating the statistical loss from collisions against the statistical loss from night fighters to calculate how close the bombers should fly to minimize RAF losses 27 The exchange rate ratio of output to input was a characteristic feature of operational research By comparing the number of flying hours put in by Allied aircraft to the number of U boat sightings in a given area it was possible to redistribute aircraft to more productive patrol areas Comparison of exchange rates established effectiveness ratios useful in planning The ratio of 60 mines laid per ship sunk was common to several campaigns German mines in British ports British mines on German routes and United States mines in Japanese routes 28 Operational research doubled the on target bomb rate of B 29s bombing Japan from the Marianas Islands by increasing the training ratio from 4 to 10 percent of flying hours revealed that wolf packs of three United States submarines were the most effective number to enable all members of the pack to engage targets discovered on their individual patrol stations revealed that glossy enamel paint was more effective camouflage for night fighters than conventional dull camouflage paint finish and a smooth paint finish increased airspeed by reducing skin friction 28 On land the operational research sections of the Army Operational Research Group AORG of the Ministry of Supply MoS were landed in Normandy in 1944 and they followed British forces in the advance across Europe They analyzed among other topics the effectiveness of artillery aerial bombing and anti tank shooting After World War II edit This section needs expansion with a link to future research You can help by adding to it March 2010 In 1947 under the auspices of the British Association a symposium was organized in Dundee In his opening address Watson Watt offered a definition of the aims of OR To examine quantitatively whether the user organization is getting from the operation of its equipment the best attainable contribution to its overall objective 10 With expanded techniques and growing awareness of the field at the close of the war operational research was no longer limited to only operational but was extended to encompass equipment procurement training logistics and infrastructure Operations research also grew in many areas other than the military once scientists learned to apply its principles to the civilian sector The development of the simplex algorithm for linear programming was in 1947 29 In the 1950s the term Operations Research was used to describe heterogeneous mathematical methods such as game theory dynamic programming linear programming warehousing spare parts theory queue theory simulation and production control which were used primarily in civilian industry Scientific societies and journals on the subject of operations research were founded in the 1950s such as the Operation Research Society of America ORSA in 1952 and the Institute for Management Science TIMS in 1953 30 Philip Morse the head of the Weapons Systems Evaluation Group of the Pentagon became the first president of ORSA and attracted the companies of the military industrial complex to ORSA which soon had more than 500 members In the 1960s ORSA reached 8000 members citation needed Consulting companies also founded OR groups In 1953 Abraham Charnes and William Cooper published the first textbook on Linear Programming citation needed In the 1950s and 1960s chairs of operations research were established in the U S and United Kingdom from 1964 in Lancaster in the management faculties of universities Further influences from the U S on the development of operations research in Western Europe can be traced here The authoritative citation needed OR textbooks from the U S were published in Germany in German language and in France in French but not in Italian citation needed such as the book by George Dantzig Linear Programming 1963 and the book by C West Churchman et al Introduction to Operations Research 1957 The latter was also published in Spanish in 1973 opening at the same time Latin American readers to Operations Research NATO gave important impulses for the spread of Operations Research in Western Europe NATO headquarters SHAPE organised four conferences on OR in the 1950s the one in 1956 with 120 participants bringing OR to mainland Europe Within NATO OR was also known as Scientific Advisory SA and was grouped together in the Advisory Group of Aeronautical Research and Development AGARD SHAPE and AGARD organized an OR conference in April 1957 in Paris When France withdrew from the NATO military command structure the transfer of NATO headquarters from France to Belgium led to the institutionalization of OR in Belgium where Jacques Dreze founded CORE the Center for Operations Research and Econometrics at the Catholic University of Leuven in 1966 citation needed With the development of computers over the next three decades Operations Research can now solve problems with hundreds of thousands of variables and constraints Moreover the large volumes of data required for such problems can be stored and manipulated very efficiently 29 Much of operations research modernly known as analytics relies upon stochastic variables and a therefore access to truly random numbers Fortunately the cybernetics field also required the same level of randomness The development of increasingly better random number generators has been a boon to both disciplines Modern applications of operations research includes city planning football strategies emergency planning optimizing all facets of industry and economy and undoubtedly with the likelihood of the inclusion of terrorist attack planning and definitely counterterrorist attack planning More recently the research approach of operations research which dates back to the 1950s has been criticized for being collections of mathematical models but lacking an empirical basis of data collection for applications How to collect data is not presented in the textbooks Because of the lack of data there are also no computer applications in the textbooks 31 Problems addressed editCritical path analysis or project planning identifying those processes in a multiple dependency project which affect the overall duration of the project Floorplanning designing the layout of equipment in a factory or components on a computer chip to reduce manufacturing time therefore reducing cost Network optimization for instance setup of telecommunications or power system networks to maintain quality of service during outages Resource allocation problems Facility location Assignment Problems Assignment problem Generalized assignment problem Quadratic assignment problem Weapon target assignment problem Bayesian search theory looking for a target Optimal search Routing such as determining the routes of buses so that as few buses are needed as possible Supply chain management managing the flow of raw materials and products based on uncertain demand for the finished products Project production activities managing the flow of work activities in a capital project in response to system variability through operations research tools for variability reduction and buffer allocation using a combination of allocation of capacity inventory and time 32 33 Efficient messaging and customer response tactics Automation automating or integrating robotic systems in human driven operations processes Globalization globalizing operations processes in order to take advantage of cheaper materials labor land or other productivity inputs Transportation managing freight transportation and delivery systems Examples LTL shipping intermodal freight transport travelling salesman problem driver scheduling problem Scheduling Personnel staffing Manufacturing steps Project tasks Network data traffic these are known as queueing models or queueing systems Sports events and their television coverage Blending of raw materials in oil refineries Determining optimal prices in many retail and B2B settings within the disciplines of pricing science Cutting stock problem Cutting small items out of bigger ones Finding the optimal parameter weights setting of an algorithm that generates the realisation of a figured bass in Baroque compositions classical music by using weighted local cost and transition cost rules Operational research is also used extensively in government where evidence based policy is used Management science editMain article Management science In 1967 Stafford Beer characterized the field of management science as the business use of operations research 34 Like operational research itself management science MS is an interdisciplinary branch of applied mathematics devoted to optimal decision planning with strong links with economics business engineering and other sciences It uses various scientific research based principles strategies and analytical methods including mathematical modeling statistics and numerical algorithms to improve an organization s ability to enact rational and meaningful management decisions by arriving at optimal or near optimal solutions to sometimes complex decision problems Management scientists help businesses to achieve their goals using the scientific methods of operational research The management scientist s mandate is to use rational systematic science based techniques to inform and improve decisions of all kinds Of course the techniques of management science are not restricted to business applications but may be applied to military medical public administration charitable groups political groups or community groups Management science is concerned with developing and applying models and concepts that may prove useful in helping to illuminate management issues and solve managerial problems as well as designing and developing new and better models of organizational excellence 35 The application of these models within the corporate sector became known as management science 36 Related fields edit Some of the fields that have considerable overlap with Operations Research and Management Science include 37 Artificial Intelligence Business analytics Computer science Data mining Data science Big data Decision analysis Decision intelligence Engineering Financial engineering Forecasting Game theory Geography Geographic information science Graph theory Industrial engineering Inventory control Logistics Mathematical modeling Mathematical optimization Probability and statistics Project management Policy analysis Queueing theory Simulation Social network Transportation forecasting models Stochastic processes Supply chain management Systems engineering Applications edit Applications are abundant such as in airlines manufacturing companies service organizations military branches and government The range of problems and issues to which it has contributed insights and solutions is vast It includes 35 Scheduling of airlines trains buses etc Assignment assigning crew to flights trains or buses employees to projects commitment and dispatch of power generation facilities Facility location deciding most appropriate location for new facilities such as warehouses factories or fire station Hydraulics amp Piping Engineering managing flow of water from reservoirs Health Services information and supply chain management Game Theory identifying understanding developing strategies adopted by companies Urban Design Computer Network Engineering packet routing timing analysis Telecom amp Data Communication Engineering packet routing timing analysis 38 Management is also concerned with so called soft operational analysis which concerns methods for strategic planning strategic decision support problem structuring methods In dealing with these sorts of challenges mathematical modeling and simulation may not be appropriate or may not suffice Therefore during the past 30 years vague a number of non quantified modeling methods have been developed These include citation needed stakeholder based approaches including metagame analysis and drama theory morphological analysis and various forms of influence diagrams cognitive mapping strategic choice robustness analysisSocieties and journals editSocieties edit The International Federation of Operational Research Societies IFORS 39 is an umbrella organization for operational research societies worldwide representing approximately 50 national societies including those in the US 40 UK 41 France 42 Germany Italy 43 Canada 44 Australia 45 New Zealand 46 Philippines 47 India 48 Japan and South Africa 49 For the institutionalization of Operations Research the foundation of the IFORS in 1960 was of decisive importance which stimulated the foundation of national OR societies in Austria Switzerland and Germany IFORS held important international conferences every three years since 1957 50 The constituent members of IFORS form regional groups such as that in Europe the Association of European Operational Research Societies EURO 51 Other important operational research organizations are Simulation Interoperability Standards Organization SISO 52 and Interservice Industry Training Simulation and Education Conference I ITSEC 53 In 2004 the US based organization INFORMS began an initiative to market the OR profession better including a website entitled The Science of Better 54 which provides an introduction to OR and examples of successful applications of OR to industrial problems This initiative has been adopted by the Operational Research Society in the UK including a website entitled Learn About OR 55 Journals of INFORMS edit The Institute for Operations Research and the Management Sciences INFORMS publishes thirteen scholarly journals about operations research including the top two journals in their class according to 2005 Journal Citation Reports 56 They are Decision Analysis 57 Information Systems Research 58 INFORMS Journal on Computing 59 INFORMS Transactions on Education 60 an open access journal Interfaces 61 Management Science Manufacturing amp Service Operations Management Marketing Science Mathematics of Operations Research Operations Research Organization Science 62 Service Science 63 Transportation Science Other journals edit These are listed in alphabetical order of their titles 4OR A Quarterly Journal of Operations Research jointly published the Belgian French and Italian Operations Research Societies Springer Decision Sciences published by Wiley Blackwell on behalf of the Decision Sciences Institute European Journal of Operational Research EJOR Founded in 1975 and is presently when by far the largest operational research journal in the world with its around 9 000 pages of published papers per year In 2004 its total number of citations was the second largest amongst Operational Research and Management Science journals INFOR Journal published and sponsored by the Canadian Operational Research Society Journal of Defense Modeling and Simulation JDMS Applications Methodology Technology a quarterly journal devoted to advancing the science of modeling and simulation as it relates to the military and defense 64 Journal of the Operational Research Society JORS an official journal of The OR Society this is the oldest continuously published journal of OR in the world published by Taylor amp Francis Military Operations Research MOR published by the Military Operations Research Society Omega The International Journal of Management Science Operations Research Letters Opsearch official journal of the Operational Research Society of India OR Insight a quarterly journal of The OR Society published by Palgrave 65 Pesquisa Operacional the official journal of the Brazilian Operations Research Society Production and Operations Management the official journal of the Production and Operations Management Society TOP the official journal of the Spanish Statistics and Operations Research Society 66 See also editOperations research topics Black box analysis Dynamic programming Inventory theory Optimal maintenance Real options valuation Artificial intelligence Operations researchers Operations researchers category George Dantzig Leonid Kantorovich Tjalling Koopmans Russell L Ackoff Stafford Beer Alfred Blumstein C West Churchman William W Cooper Robert Dorfman Richard M Karp Ramayya Krishnan Frederick W Lanchester Thomas L Magnanti Alvin E Roth Peter Whittle Related fields Behavioral operations research Big data Business engineering Business process management Database normalization Engineering management Geographic information systems Industrial engineering Industrial organization Managerial economics Military simulation Operational level of war Power system simulation Project production management Reliability engineering Scientific management Search based software engineering Simulation modeling Strategic management Supply chain engineering System safety WargamingReferences edit What is O R INFORMS org Retrieved 7 January 2012 Wetherbe James C 1979 Systems analysis for computer based information systems West series in data processing and information systems West Pub Co ISBN 9780829902280 A systems analyst who contributes in the area of DSS must be skilled in such areas as management science synonymous with decision science and operation research modeling simulation and advanced statistics a b What is OR HSOR org Retrieved 13 November 2011 Operations Research Analysts Bls gov Retrieved 27 January 2012 OR Pubs IOL Home INFORMS org 2 January 2009 Archived from the original on 27 May 2009 Retrieved 13 November 2011 Petropoulos Fotios Laporte Gilbert Aktas Emel Alumur Sibel A Archetti Claudia Ayhan Hayriye Battarra Maria Bennell Julia A Bourjolly Jean Marie Boylan John E Breton Michele Canca David Charlin Laurent Chen Bo Cicek Cihan Tugrul 27 December 2023 Operational Research methods and applications Journal of the Operational Research Society 75 3 423 617 arXiv 2303 14217 doi 10 1080 01605682 2023 2253852 ISSN 0160 5682 Shafer G 2018 Pascal s and Huygens s game theoretic foundations for probability 1 M S Sodhi What about the O in O R OR MS Today December 2007 p 12 http www lionhrtpub com orms orms 12 07 frqed html Archived 14 July 2009 at the Wayback Machine P W Bridgman The Logic of Modern Physics The MacMillan Company New York 1927 a b Zuckerman Solly 1964 In the Beginning And Later OR 15 4 287 292 doi 10 2307 3007115 ISSN 1473 2858 JSTOR 3007115 operations research industrial engineering History Britannica Online Encyclopedia Britannica com Retrieved 13 November 2011 Operational Research in the British Army 1939 1945 October 1947 Report C67 3 4 48 UK National Archives file WO291 1301Quoted on the dust jacket of Morse Philip M and Kimball George E Methods of Operation Research 1st edition revised MIT Press amp J Wiley 5th printing 1954 UK National Archives Catalogue for WO291 lists a War Office organisation called Army Operational Research Group AORG that existed from 1946 to 1962 In January 1962 the name was changed to Army Operational Research Establishment AORE Following the creation of a unified Ministry of Defence a tri service operational research organisation was established the Defence Operational Research Establishment DOAE which was formed in 1965 and it the Army Operational Research Establishment based at West Byfleet Archived copy PDF Archived from the original PDF on 12 August 2011 Retrieved 7 October 2009 a href Template Cite web html title Template Cite web cite web a CS1 maint archived copy as title link Kirby p 117 Archived 27 August 2013 at the Wayback Machine Kirby pp 91 94 Archived 27 August 2013 at the Wayback Machine Kirby p 96 109 Archived 2 October 2013 at the Wayback Machine Kirby p 96 Archived 27 March 2014 at the Wayback Machine Freeman Dyson MIT Technology Review 1 November 2006 A Failure of Intelligence Part I Numbers are Essential Victory in the North Atlantic Reconsidered March May 1943 Familyheritage ca 24 May 1943 Retrieved 13 November 2011 Kirby p 101 Kirby pp 102 103 James F Dunnigan 1999 Dirty Little Secrets of the Twentieth Century Harper Paperbacks pp 215 217 Examine your assumptions LessWrong Wallis W Allen 1980 The Statistical Research Group 1942 1945 Journal of the American Statistical Association 75 370 320 330 doi 10 1080 01621459 1980 10477469 Mangel Marc Samaniego Francisco J 1984 Abraham Wald s Work on Aircraft Survivability Journal of the American Statistical Association 79 386 259 doi 10 2307 2288257 JSTOR 2288257 RAF History Bomber Command 60th Anniversary Raf mod uk Archived from the original on 5 November 2011 Retrieved 13 November 2011 a b Milkman Raymond H May 1968 Operation Research in World War II United States Naval Institute Proceedings a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help a b 1 2 A HISTORICAL PERSPECTIVE PRINCIPLES AND APPLICATIONS OF OPERATIONS RESEARCH Richard Vahrenkamp Mathematical Management Operations Research in the United States and Western Europe 1945 1990 in Management Revue Socio Economic Studies vol 34 2023 issue 1 pp 69 91 Vahrenkamp Richard 2019 Nominal Science without Data The Cold War Content of Game Theory and Operations Research PDF Real World Economics Review 88 19 50 Factory Physics for Managers E S Pound J H Bell and M L Spearman McGraw Hill 2014 p 47 New Era of Project Delivery Project as Production System R G Shenoy and T R Zabelle Journal of Project Production Management Vol 1 pp Nov 2016 pp 13 24 https www researchgate net publication 312602707 New Era of Project Delivery Project as Production System Stafford Beer 1967 Management Science The Business Use of Operations Research a b What is Management Science Archived 14 September 2008 at the Wayback Machine Lancaster University 2008 Retrieved 5 June 2008 What is Management Science Archived 7 December 2008 at the Wayback Machine The University of Tennessee 2006 Retrieved 5 June 2008 Merigo Jose M Yang Jian Bo 2017 A bibliometric analysis of operations research and management science Omega International Journal of Management Science 73 37 48 doi 10 1016 j omega 2016 12 004 ISSN 0305 0483 Blog Archived from the original on 29 September 2017 Retrieved 28 June 2017 IFORS IFORS Retrieved 13 November 2011 Leszczynski Mary 8 November 2011 Informs Informs Retrieved 13 November 2011 The OR Society Orsoc org uk Archived from the original on 24 April 2006 Retrieved 13 November 2011 Societe francaise de Recherche Operationnelle et d Aide a la Decision ROADEF Retrieved 13 November 2011 airo org AIRO airo org Retrieved 31 March 2018 cors ca CORS Cors ca Retrieved 13 November 2011 ASOR ASOR 1 January 1972 Retrieved 13 November 2011 ORSNZ ORSNZ Retrieved 13 November 2011 ORSP ORSP Retrieved 13 November 2011 ORSI Orsi in Retrieved 13 November 2011 ORSSA ORSSA 23 September 2011 Retrieved 13 November 2011 Richard Vahrenkamp 2023 Mathematical Management Operations Research in the United States and Western Europe 1945 1990 Management Revue Socio Economic Studies vol 34 no 1 pp 69 91 doi 10 5771 0935 9915 2023 1 69 S2CID 258937881 EURO EURO Euro online org Retrieved 13 November 2011 SISO Sisostds org Retrieved 13 November 2011 I Itsec I Itsec Retrieved 13 November 2011 The Science of Better The Science of Better Retrieved 13 November 2011 Learn about OR Learn about OR Archived from the original on 15 November 2011 Retrieved 13 November 2011 INFORMS Journals Informs org Archived from the original on 9 March 2010 Retrieved 13 November 2011 Decision Analysis Informs org Retrieved 19 March 2015 Information Systems Research Informs org Retrieved 19 March 2015 INFORMS Journal on Computing Informs org Retrieved 19 March 2015 INFORMS Transactions on Education Informs org Retrieved 19 March 2015 Interfaces Informs org Retrieved 19 March 2015 Organization Science Informs org Retrieved 19 March 2015 Service Science Informs org Retrieved 19 March 2015 The Society for Modeling amp Simulation International JDMS Scs org Archived from the original on 23 August 2009 Retrieved 13 November 2011 The OR Society Archived 24 April 2006 at the Library of Congress Web Archives TOP Springer com Retrieved 13 November 2011 Further reading editClassic books and articles edit R E Bellman Dynamic Programming Princeton University Press Princeton 1957 Abraham Charnes William W Cooper Management Models and Industrial Applications of Linear Programming Volumes I and II New York John Wiley amp Sons 1961 Abraham Charnes William W Cooper A Henderson An Introduction to Linear Programming New York John Wiley amp Sons 1953 C West Churchman Russell L Ackoff amp E L Arnoff Introduction to Operations Research New York J Wiley and Sons 1957 George B Dantzig Linear Programming and Extensions Princeton Princeton University Press 1963 Lester K Ford Jr D Ray Fulkerson Flows in Networks Princeton Princeton University Press 1962 Jay W Forrester Industrial Dynamics Cambridge MIT Press 1961 L V Kantorovich Mathematical Methods of Organizing and Planning Production Management Science 4 1960 266 422 Ralph Keeney Howard Raiffa Decisions with Multiple Objectives Preferences and Value Tradeoffs New York John Wiley amp Sons 1976 H W Kuhn The Hungarian Method for the Assignment Problem Naval Research Logistics Quarterly 1 2 1955 83 97 H W Kuhn A W Tucker Nonlinear Programming pp 481 492 in Proceedings of the Second Berkeley Symposium on Mathematical Statistics and Probability B O Koopman Search and Screening General Principles and Historical Applications New York Pergamon Press 1980 Tjalling C Koopmans editor Activity Analysis of Production and Allocation New York John Wiley amp Sons 1951 Charles C Holt Franco Modigliani John F Muth Herbert A Simon Planning Production Inventories and Work Force Englewood Cliffs NJ Prentice Hall 1960 Philip M Morse George E Kimball Methods of Operations Research New York MIT Press and John Wiley amp Sons 1951 Robert O Schlaifer Howard Raiffa Applied Statistical Decision Theory Cambridge Division of Research Harvard Business School 1961 Classic textbooks edit Taha Hamdy A Operations Research An Introduction Pearson 10th Edition 2016 Frederick S Hillier amp Gerald J Lieberman Introduction to Operations Research McGraw Hill Boston MA 10th Edition 2014 Robert J Thierauf amp Richard A Grosse Decision Making Through Operations Research John Wiley amp Sons INC 1970 Harvey M Wagner Principles of Operations Research Englewood Cliffs Prentice Hall 1969 Wentzel Ventsel E S Introduction to Operations Research Moscow Soviet Radio Publishing House 1964 History edit Saul I Gass Arjang A Assad An Annotated Timeline of Operations Research An Informal History New York Kluwer Academic Publishers 2005 Saul I Gass Editor Arjang A Assad Editor Profiles in Operations Research Pioneers and Innovators Springer 2011 Maurice W Kirby Operational Research Society Great Britain Operational Research in War and Peace The British Experience from the 1930s to 1970 Imperial College Press 2003 ISBN 1 86094 366 7 ISBN 978 1 86094 366 9 J K Lenstra A H G Rinnooy Kan A Schrijver editors History of Mathematical Programming A Collection of Personal Reminiscences North Holland 1991 Charles W McArthur Operations Analysis in the U S Army Eighth Air Force in World War II History of Mathematics Vol 4 Providence American Mathematical Society 1990 C H Waddington O R in World War 2 Operational Research Against the U boat London Elek Science 1973 Richard Vahrenkamp Mathematical Management Operations Research in the United States and Western Europe 1945 1990 in Management Revue Socio Economic Studies vol 34 2023 issue 1 pp 69 91 External links edit nbsp Wikimedia Commons has media related to Operations research nbsp Wikiquote has quotations related to Operations research What is Operations Research International Federation of Operational Research Societies The Institute for Operations Research and the Management Sciences INFORMS Occupational Outlook Handbook U S Department of Labor Bureau of Labor Statistics Retrieved from https en wikipedia org w index php title Operations research amp oldid 1225285516, wikipedia, wiki, book, books, library,

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