SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2975752693> ?p ?o ?g. }

Showing items 1 to 100 of ±118 with 100 items per page.

W2975752693 endingPage "472" @default.
W2975752693 startingPage "441" @default.
W2975752693 abstract "Abstract Pattern-recognition methods will enable detection, prediction, classification of fault, and decision-making, which are important functioning integrated into the implementation of the protection schemes to develop a smarter transmission system. Electromechanical, electronic, digital, numerical, and today smart relays represent a trend in the field of power system protection and in a special case, protection schemes of transmission lines. In the procedure of pattern recognition, interesting features or useful information can be extracted from power system signals. The discovered features, as an input feature vector, can be applied to decision-making or process of supervision in the protection schemes. The decision-making model contains a representation of the nonlinearity of the mapping between the input vector and output target. Therefore the pattern-recognition method is considered as one of the most important frontiers in complex and nonlinear problems, say power system protections. The proposed chapter will provide a framework for different functions of future technology of smart distance relays. Fault detection, fault classification or phase selection, high-impedance fault detection, symmetrical fault detection during power swing, and power swing detection are the functions developed through pattern-recognition methods. Since the performance of some schemes of the conventional distance relays has some shortcomings, the pattern-recognition methods have the potential to improve the performance of the schemes. They can execute their functionality with cooperation with other routines of the conventional relays. Moreover, the pattern-recognition methods need not exact information on the parameters of power systems to make the final decision, while these methods can work under missing data or noisy conditions. They can also have the capability to adopt against changing the power system topology such as compensated or double-circuit transmission lines. In addition to overcoming some shortcomings of conventional schemes, researchers are interested to propose approaches toward more simplified but more reliable protection schemes. All protection schemes will be examined and evaluated by feasibility, security, dependability, reliability, and speed criteria. To improve the criteria, protection schemes can be addressed by some new approaches such as pattern recognition. This chapter discusses the details of protection schemes based on pattern recognition and also suggests a new trend of setting-less smart protection schemes. Extensions of this idea and giving a new perspective to apply pattern recognition to a future generation of protection relays are the purpose of this chapter." @default.
W2975752693 created "2019-10-03" @default.
W2975752693 creator A5006242483 @default.
W2975752693 creator A5031858214 @default.
W2975752693 creator A5074376809 @default.
W2975752693 date "2020-01-01" @default.
W2975752693 modified "2023-10-15" @default.
W2975752693 title "Pattern-recognition methods for decision-making in protection of transmission lines" @default.
W2975752693 cites W1197176562 @default.
W2975752693 cites W1487636016 @default.
W2975752693 cites W1508669455 @default.
W2975752693 cites W1527174544 @default.
W2975752693 cites W1609962231 @default.
W2975752693 cites W1969231288 @default.
W2975752693 cites W1977775714 @default.
W2975752693 cites W1986754283 @default.
W2975752693 cites W1986891522 @default.
W2975752693 cites W1990619415 @default.
W2975752693 cites W1995397447 @default.
W2975752693 cites W1997726919 @default.
W2975752693 cites W1997792078 @default.
W2975752693 cites W2002072239 @default.
W2975752693 cites W2007221293 @default.
W2975752693 cites W2009731159 @default.
W2975752693 cites W2024911125 @default.
W2975752693 cites W2030774315 @default.
W2975752693 cites W2030922802 @default.
W2975752693 cites W2044682410 @default.
W2975752693 cites W2053398326 @default.
W2975752693 cites W2058307714 @default.
W2975752693 cites W2059483872 @default.
W2975752693 cites W2060894862 @default.
W2975752693 cites W2061773593 @default.
W2975752693 cites W2062283142 @default.
W2975752693 cites W2065452888 @default.
W2975752693 cites W2082201849 @default.
W2975752693 cites W2095437436 @default.
W2975752693 cites W2096125904 @default.
W2975752693 cites W2096612305 @default.
W2975752693 cites W2102370178 @default.
W2975752693 cites W2105049517 @default.
W2975752693 cites W2105463621 @default.
W2975752693 cites W2107490789 @default.
W2975752693 cites W2107912313 @default.
W2975752693 cites W2110376334 @default.
W2975752693 cites W2112393069 @default.
W2975752693 cites W2118672156 @default.
W2975752693 cites W2131065949 @default.
W2975752693 cites W2140160316 @default.
W2975752693 cites W2143211513 @default.
W2975752693 cites W2154053567 @default.
W2975752693 cites W2156247238 @default.
W2975752693 cites W2158088192 @default.
W2975752693 cites W2163463221 @default.
W2975752693 cites W2167101736 @default.
W2975752693 cites W2167111700 @default.
W2975752693 cites W2171205477 @default.
W2975752693 cites W2269384522 @default.
W2975752693 cites W2287920128 @default.
W2975752693 cites W2291553107 @default.
W2975752693 cites W2294344044 @default.
W2975752693 cites W2317529328 @default.
W2975752693 cites W2337881469 @default.
W2975752693 cites W2542145506 @default.
W2975752693 cites W259755134 @default.
W2975752693 cites W2606972666 @default.
W2975752693 cites W2612954954 @default.
W2975752693 cites W2617598012 @default.
W2975752693 cites W2735034853 @default.
W2975752693 cites W2738091946 @default.
W2975752693 cites W2747673131 @default.
W2975752693 cites W2775009151 @default.
W2975752693 cites W2792014230 @default.
W2975752693 cites W2805867132 @default.
W2975752693 cites W3147446521 @default.
W2975752693 cites W2086062117 @default.
W2975752693 doi "https://doi.org/10.1016/b978-0-12-816445-7.00017-7" @default.
W2975752693 hasPublicationYear "2020" @default.
W2975752693 type Work @default.
W2975752693 sameAs 2975752693 @default.
W2975752693 citedByCount "4" @default.
W2975752693 countsByYear W29757526932020 @default.
W2975752693 countsByYear W29757526932021 @default.
W2975752693 countsByYear W29757526932022 @default.
W2975752693 countsByYear W29757526932023 @default.
W2975752693 crossrefType "book-chapter" @default.
W2975752693 hasAuthorship W2975752693A5006242483 @default.
W2975752693 hasAuthorship W2975752693A5031858214 @default.
W2975752693 hasAuthorship W2975752693A5074376809 @default.
W2975752693 hasConcept C153180895 @default.
W2975752693 hasConcept C154945302 @default.
W2975752693 hasConcept C41008148 @default.
W2975752693 hasConcept C761482 @default.
W2975752693 hasConcept C76155785 @default.
W2975752693 hasConceptScore W2975752693C153180895 @default.
W2975752693 hasConceptScore W2975752693C154945302 @default.
W2975752693 hasConceptScore W2975752693C41008148 @default.
W2975752693 hasConceptScore W2975752693C761482 @default.