| Record ID | marc_columbia/Columbia-extract-20221130-016.mrc:160474713:5699 |
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LEADER: 05699cam a2200397 a 4500
001 7924287
005 20221201044528.0
008 100527t20112011flua b 001 0 eng
010 $a 2010019543
020 $a9781439835227 (hardcover : alk. paper)
020 $a1439835225 (hardcover : alk. paper)
024 $a40018182493
035 $a(OCoLC)ocn636563269
035 $a(OCoLC)636563269
035 $a(NNC)7924287
035 $a7924287
040 $aDLC$cDLC$dYDX$dYDXCP$dOrLoB-B
050 00 $aTJ220$b.Y36 2011
082 00 $a629.8/32$222
100 1 $aYang, Guang-Hong.$0http://id.loc.gov/authorities/names/n2010034920
245 10 $aReliable control and filtering of linear systems with adaptive mechanisms /$cGuang-Hong Yang, Dan Ye.
260 $aBoca Raton, FL :$bCRC Press,$c[2011], ©2011.
300 $axi, 252 pages :$billustrations ;$c25 cm.
336 $atext$btxt$2rdacontent
337 $aunmediated$bn$2rdamedia
490 1 $aAutomation and control engineering
500 $a"A CRC title."
504 $aIncludes bibliographical references and index.
505 00 $g1.$tIntroduction -- $g2.$tPreliminaries -- $g2.1.$tLinear Matrix Inequalities -- $g2.2.$tH∞ Control Problem -- $g2.2.1.$tH∞ Performance Index -- $g2.2.2.$tState Feedback H∞ Control -- $g2.2.3.$tDynamic Output Feedback H∞ Control -- $g2.3.$tSome Other Lemmas -- $g3.$tAdaptive Reliable Control against Actuator Faults -- $g3.1.$tIntroduction -- $g3.2.$tProblem Statement -- $g3.3.$tState Feedback Control -- $g3.4.$tDynamic Output Feedback Control -- $g3.5.$tExample -- $g3.6.$tConclusion -- $g4.$tAdaptive Reliable Control against Sensor Faults -- $g4.1.$tIntroduction -- $g4.2.$tProblem Statement -- $g4.3.$tAdaptive Reliable H∞ Dynamic Output Feedback Controller Design -- $g4.4.$tExample -- $g4.5.$tConclusion -- $g5.$tAdaptive Reliable Filtering against Sensor Faults -- $g5.1.$tIntroduction -- $g5.2.$tProblem Statement -- $g5.3.$tAdaptive Reliable H∞ Filter Design -- $g5.4.$tExample -- $g5.5.$tConclusion -- $g6.$tAdaptive Reliable Control for Time-Delay Systems -- $g6.1.$tIntroduction -- $g6.2.$tAdaptive Reliable Memory-Less Controller Design -- $g6.2.1.$tProblem Statement -- $g6.2.2.$tH∞ State Feedback Control -- $g6.2.3.$tGuaranteed Cost Dynamic Output Feedback Control -- $g6.2.4.$tExample -- $g6.3.$tAdaptive Reliable Memory Controller Design -- $g6.3.1.$tProblem Statement -- $g6.3.2.$tH∞ State Feedback Control -- $g6.3.3.$tGuaranteed Cost State Feedback Control -- $g6.3.4.$tExample -- $g6.4.$tConclusion -- $g7.$tAdaptive Reliable Control with Actuator Saturation -- $g7.1.$tIntroduction -- $g7.2.$tState Feedback -- $g7.2.1.$tProblem Statement -- $g7.2.2.$tA Condition for Set Invariance -- $g7.2.3.$tController Design -- $g7.2.4.$tExample -- $g7.3.$tOutput Feedback -- $g7.3.1.$tProblem Statement -- $g7.3.2.$tA Condition for Set Invariance -- $g7.3.3.$tController Design -- $g7.3.4.$tExample -- $g7.4.$tConclusion -- $g8.$tARC with Actuator Saturation and L2-Disturbances -- $g8.1.$tIntroduction -- $g8.2.$tState Feedback -- $g8.2.1.$tProblem Statement -- $g8.2.2.$tARC Controller Design -- $g8.2.3.$tExample -- $g8.3.$tOutput Feedback -- $g8.3.1.$tProblem Statement -- $g8.3.2.$tARC Controller Design -- $g8.3.3.$tExample -- $g8.4.$tConclusion -- $g9.$tAdaptive Reliable Tracking Control -- $g9.1.$tIntroduction -- $g9.2.$tProblem Statement -- $g9.3.$tAdaptive Reliable Tracking Controller Design -- $g9.4.$tExample -- $g9.5.$tConclusion -- $g10.$tAdaptive Reliable Control for Nonlinear Time-Delay Systems -- $g10.1.$tIntroduction -- $g10.2.$tProblem Statement -- $g10.3.$tAdaptive Reliable Controller Design -- $g10.4.$tExample -- $g10.5.$tConclusion.
520 1 $a"More and more, the advanced technological systems of today rely on sophisticated control systems designed to assure greater levels of safe operation while optimizing performance. Rather than assuming always perfect conditions, these systems require adaptive approaches capable of coping with inevitable system component faults. Conventional feedback control designs do not offer that capability and can result in unsatisfactory performance or even instability, which is totally unacceptable in complex systems such as aircraft, spacecraft, and nuclear power plants where safety is a paramount concern." "Reliable Control and Filtering of Linear Systems with Adaptive Mechanisms presents recent research results that are advancing the field. It shows how adaptive mechanisms can be successfully introduced into the traditional reliable control/filtering, so that, based on the online estimation of eventual faults, the proposed adaptive reliable controller/filter parameters are updated automatically to compensate for any fault effects." "The authors also extend the design idea from linear systems to linear time-delay systems via both memory and memory-less controllers. Moreover, some more recent results for the corresponding adaptive reliable control against actuator saturation are included. Ultimately, this remarkably practical resource, offers design approaches and guidelines that researchers can readily employ in the design of advanced FTC techniques offering improved reliability, maintainability, and survivability."--BOOK JACKET.
650 0 $aLinear control systems$xReliability.
650 0 $aAdaptive control systems$xReliability.
650 0 $aFault tolerance (Engineering)$0http://id.loc.gov/authorities/subjects/sh96008887
700 1 $aYe, Dan,$d1979-$0http://id.loc.gov/authorities/names/n2010034921
830 0 $aAutomation and control engineering.$0http://id.loc.gov/authorities/names/no2006124796
852 00 $boff,eng$hTJ220$i.Y36 2011