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- Type-2_fuzzy_sets_and_systems abstract "Type-2 fuzzy sets and systems generalize Type-1 fuzzy sets and systems so that more uncertainty can be handled. From the very beginning of fuzzy sets, criticism was made about the fact that the membership function of a type-1 fuzzy set has no uncertainty associated with it, something that seems to contradict the word fuzzy, since that word has the connotation of lots of uncertainty. So, what does one do when there is uncertainty about the value of the membership function? The answer to this question was provided in 1975 by the inventor of fuzzy sets, Prof. Lotfi A. Zadeh [27], when he proposed more sophisticated kinds of fuzzy sets, the first of which he called a type-2 fuzzy set. A type-2 fuzzy set lets us incorporate uncertainty about the membership function into fuzzy set theory, and is a way to address the above criticism of type-1 fuzzy sets head-on. And, if there is no uncertainty, then a type-2 fuzzy set reduces to a type-1 fuzzy set, which is analogous to probability reducing to determinism when unpredictability vanishes,.In order to symbolically distinguish between a type-1 fuzzy set and a type-2 fuzzy set, a tilde symbol is put over the symbol for the fuzzy set; so, A denotes a type-1 fuzzy set, whereas à denotes the comparable type-2 fuzzy set. When the latter is done, the resulting type-2 fuzzy set is called a general type-2 fuzzy set (to distinguish it from the special interval type-2 fuzzy set). Prof. Zadeh didn't stop with type-2 fuzzy sets, because in that 1976 paper [27] he also generalized all of this to type-n fuzzy sets. The present article focuses only on type-2 fuzzy sets because they are the next step in the logical progression from type-1 to type-n fuzzy sets, where n = 1, 2, … . Although some researchers are beginning to explore higher than type-2 fuzzy sets, as of early 2009, this work is in its infancy.The membership function of a general type-2 fuzzy set, Ã, is three-dimensional (Fig. 1), where the third dimension is the value of the membership function at each point on its two-dimensional domain that is called its footprint of uncertainty (FOU). For an interval type-2 fuzzy set that third-dimension value is the same (e.g., 1) everywhere, which means that no new information is contained in the third dimension of an interval type-2 fuzzy set. So, for such a set, the third dimension is ignored, and only the FOU is used to describe it. It is for this reason that an interval type-2 fuzzy set is sometimes called a first-order uncertainty fuzzy set model, whereas a general type-2 fuzzy set (with its useful third-dimension) is sometimes referred to as a second-order uncertainty fuzzy set model.The FOU represents the blurring of a type-1 membership function, and is completely described by its two bounding functions (Fig. 2), a lower membership function (LMF) and an upper membership function (UMF), both of which are type-1 fuzzy sets! Consequently, it is possible to use type-1 fuzzy set mathematics to characterize and work with interval type-2 fuzzy sets. This means that engineers and scientists who already know type-1 fuzzy sets will not have to invest a lot of time learning about general type-2 fuzzy set mathematics in order to understand and use interval type-2 fuzzy sets. Work on type-2 fuzzy sets languished during the 1980s and early-to-mid 1990's, although a small number of articles were published about them. People were still trying to figure out what to do with type-1 fuzzy sets, so even though Zadeh proposed type-2 fuzzy sets in 1976, the time was not right for researchers to drop what they were doing with type-1 fuzzy sets to focus on type-2 fuzzy sets. This changed in the latter part of the 1990s as a result of Prof. Jerry Mendel and his student's works on type-2 fuzzy sets and systems (e.g., [12]). Since then, more and more researchers around the world are writing articles about type-2 fuzzy sets and systems.".
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- Type-2_fuzzy_sets_and_systems wikiPageExternalLink A_Brief_Tutorial_on_Interval_Type-2_Fuzzy_Sets_and_Systems.pdf?attredirects=0.
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- Type-2_fuzzy_sets_and_systems wikiPageWikiLink Category:Artificial_intelligence.
- Type-2_fuzzy_sets_and_systems wikiPageWikiLink Category:Fuzzy_logic.
- Type-2_fuzzy_sets_and_systems wikiPageWikiLink Category:Logic_in_computer_science.
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- Type-2_fuzzy_sets_and_systems wikiPageWikiLink Computational_intelligence.
- Type-2_fuzzy_sets_and_systems wikiPageWikiLink Defuzzification.
- Type-2_fuzzy_sets_and_systems wikiPageWikiLink Expert_system.
- Type-2_fuzzy_sets_and_systems wikiPageWikiLink Falsifiability.
- Type-2_fuzzy_sets_and_systems wikiPageWikiLink File:T2_FLS.jpg.
- Type-2_fuzzy_sets_and_systems wikiPageWikiLink Fuzzy_control_system.
- Type-2_fuzzy_sets_and_systems wikiPageWikiLink Fuzzy_logic.
- Type-2_fuzzy_sets_and_systems wikiPageWikiLink Fuzzy_set.
- Type-2_fuzzy_sets_and_systems wikiPageWikiLink Fuzzy_set_operations.
- Type-2_fuzzy_sets_and_systems wikiPageWikiLink Granular_computing.
- Type-2_fuzzy_sets_and_systems wikiPageWikiLink Interval_arithmetic.
- Type-2_fuzzy_sets_and_systems wikiPageWikiLink Karl_Popper.
- Type-2_fuzzy_sets_and_systems wikiPageWikiLink Lotfi_A._Zadeh.
- Type-2_fuzzy_sets_and_systems wikiPageWikiLink Perceptual_computing.
- Type-2_fuzzy_sets_and_systems wikiPageWikiLink Rough_set.
- Type-2_fuzzy_sets_and_systems wikiPageWikiLink Soft_set.
- Type-2_fuzzy_sets_and_systems wikiPageWikiLink Vagueness.
- Type-2_fuzzy_sets_and_systems wikiPageWikiLink File:FOU_for_IT2_FS.jpg.
- Type-2_fuzzy_sets_and_systems wikiPageWikiLink File:MF_of_general_T2_FS.jpg.
- Type-2_fuzzy_sets_and_systems wikiPageWikiLinkText "Type-2 fuzzy sets and systems".
- Type-2_fuzzy_sets_and_systems wikiPageWikiLinkText "type-2 fuzzy sets".
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- Type-2_fuzzy_sets_and_systems subject Category:Artificial_intelligence.
- Type-2_fuzzy_sets_and_systems subject Category:Fuzzy_logic.
- Type-2_fuzzy_sets_and_systems subject Category:Logic_in_computer_science.
- Type-2_fuzzy_sets_and_systems type Area.
- Type-2_fuzzy_sets_and_systems type Area.
- Type-2_fuzzy_sets_and_systems type Redirect.
- Type-2_fuzzy_sets_and_systems comment "Type-2 fuzzy sets and systems generalize Type-1 fuzzy sets and systems so that more uncertainty can be handled. From the very beginning of fuzzy sets, criticism was made about the fact that the membership function of a type-1 fuzzy set has no uncertainty associated with it, something that seems to contradict the word fuzzy, since that word has the connotation of lots of uncertainty.".
- Type-2_fuzzy_sets_and_systems label "Type-2 fuzzy sets and systems".
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- Type-2_fuzzy_sets_and_systems sameAs m.05bztns.
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- Type-2_fuzzy_sets_and_systems wasDerivedFrom Type-2_fuzzy_sets_and_systems?oldid=702196001.
- Type-2_fuzzy_sets_and_systems depiction MF_of_general_T2_FS.jpg.
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