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      KCI등재 SCIE SCOPUS

      Design of Explicit Model Predictive Control for Constrained Linear Systems with Disturbances

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      https://www.riss.kr/link?id=A104902705

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      다국어 초록 (Multilingual Abstract)

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      On-line model predictive control approaches require the online solution of an optimization problem. In contrast, the explicit model predictive control moves major part of computation offline. Therefore, eMPC enables one to implement a MPC in real time for wide range of fast systems. The eMPC approach requires the exact system model and results a piecewise affine control law defined on a polyhedral partition in the state space. As an important limitation, disturbances may reduce perfor-mance of the explicit model predictive control. This paper presents efficient approach for handling the problem of using eMPC for constrained systems with disturbances. It proposes an approach to improve performance of the closed loop system by designing a suitable state and disturbance estimator. Conditions for observability of the disturbances are considered and it is depicted that applying the disturbance’s estimation leads to rejection of the response error. It is also shown that the proposed approach prevents the reduction of feasible space. Simulation results illustrate the advantages of this approach.
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      On-line model predictive control approaches require the online solution of an optimization problem. In contrast, the explicit model predictive control moves major part of computation offline. Therefore, eMPC enables one to implement a MPC in real time...

      On-line model predictive control approaches require the online solution of an optimization problem. In contrast, the explicit model predictive control moves major part of computation offline. Therefore, eMPC enables one to implement a MPC in real time for wide range of fast systems. The eMPC approach requires the exact system model and results a piecewise affine control law defined on a polyhedral partition in the state space. As an important limitation, disturbances may reduce perfor-mance of the explicit model predictive control. This paper presents efficient approach for handling the problem of using eMPC for constrained systems with disturbances. It proposes an approach to improve performance of the closed loop system by designing a suitable state and disturbance estimator. Conditions for observability of the disturbances are considered and it is depicted that applying the disturbance’s estimation leads to rejection of the response error. It is also shown that the proposed approach prevents the reduction of feasible space. Simulation results illustrate the advantages of this approach.

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      참고문헌 (Reference)

      1 F. Bayat, "Using hash tables to manage the time-storage predictive control" 47 (47): 571-577, 2011

      2 J. B. Rawlings, "The stability of constrained receding-horizon control" 38 : 1512-1516, 1993

      3 A. Bemporad, "The explicit linear quadratic regulator for constrained systems" 38 (38): 3-20, 2002

      4 A. Bemporad, "Robust model predictive control : a survey" 245 : 207-226, 1999

      5 D. Muñoz de la Peña, "Robust explicit MPC based on approximate multi-parametric convex programming" 51 (51): 1399-1403, 2007

      6 M. V. Kothare, "Robust constrained model predictive control using linear matrix inequalities" 32 (32): 1361-1379, 1996

      7 J. M. Maciejowski, "Predictive Control with Con-straints, Pearson Education Limited" Prentice Hall 2002

      8 E. N. Pistikopoulos, "Perspectives in multiparame-tric programming and explicit model predictive control" 55 (55): 1918-1925, 2009

      9 S. S. Keerthi, "Optimal, infinite horizon feedback laws for a general class of con-strained discrete time systems : Stability and moving-horizon approximations" 57 : 265-293, 1988

      10 U. Maeder, "Offset-free reference tracking with model predictive control" 46 : 1469-1476, 2010

      1 F. Bayat, "Using hash tables to manage the time-storage predictive control" 47 (47): 571-577, 2011

      2 J. B. Rawlings, "The stability of constrained receding-horizon control" 38 : 1512-1516, 1993

      3 A. Bemporad, "The explicit linear quadratic regulator for constrained systems" 38 (38): 3-20, 2002

      4 A. Bemporad, "Robust model predictive control : a survey" 245 : 207-226, 1999

      5 D. Muñoz de la Peña, "Robust explicit MPC based on approximate multi-parametric convex programming" 51 (51): 1399-1403, 2007

      6 M. V. Kothare, "Robust constrained model predictive control using linear matrix inequalities" 32 (32): 1361-1379, 1996

      7 J. M. Maciejowski, "Predictive Control with Con-straints, Pearson Education Limited" Prentice Hall 2002

      8 E. N. Pistikopoulos, "Perspectives in multiparame-tric programming and explicit model predictive control" 55 (55): 1918-1925, 2009

      9 S. S. Keerthi, "Optimal, infinite horizon feedback laws for a general class of con-strained discrete time systems : Stability and moving-horizon approximations" 57 : 265-293, 1988

      10 U. Maeder, "Offset-free reference tracking with model predictive control" 46 : 1469-1476, 2010

      11 F. Bayat, "Multi-resolution ex-plicit model predictive control : delta-model formu-lation and approximation" 58 (58): 2979-2984, 2013

      12 B.-C. Ding, "Modern Predictive Control" CRC Press INC 2009

      13 E. F. Camacho, "Model Predictive Control" Springer 1999

      14 U. Maeder, "Linear offset-free model predictive control" 45 (45): 2214-2222, 2009

      15 E. C. Kerrigan, "Invariant sets for constrained nonlinear discrete-time systems with application to feasibility in model predictive control" 2000

      16 F. Bayat, "Flexi-ble piecewise function evaluation methods based on truncated binary search trees and lattice representa-tion in explicit MPC" 20 (20): 632-640, 2012

      17 D. Chu, "Explicit ro-bust model predictive control using recursive closed-loop prediction" 16 : 519-546, 2006

      18 T. Besselmann, "Expli-cit model predictive control for systems with linear parameter-varying state transition matrix" 2008

      19 M. Baotic, "Efficient on-line computation of constrained optimal control" 47 (47): 2470-2489, 2008

      20 F. Christophersen, "Efficient evaluation of piecewise con-trol laws defined over a large number of polyhe-dra" 2360-2367, 2007

      21 T. A. Badgwell, "Disturbance model design for linear model predictive control" 1621-1626, 2002

      22 A. Grancharova, "Design of robust explicit model predictive controller via or-thogonal search tree partitioning" 2003

      23 Z. Wan, "An efficient off-line for-mulation of robust model predictive control using linear matrix inequalities" 39 : 837-846, 2003

      24 P. Tøndel, "An algorithm for multi-parametric quadratic program-ming and explicit MPC solutions" 39 : 743-749, 2003

      25 A. Bemporad, "An algorithm for approximate multi-parametric convex program-ming" 35 : 87-108, 2006

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      학술지 이력

      학술지 이력
      연월일 이력구분 이력상세 등재구분
      2023 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
      2020-01-01 평가 등재학술지 유지 (해외등재 학술지 평가) KCI등재
      2010-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2009-12-29 학회명변경 한글명 : 제어ㆍ로봇ㆍ시스템학회 -> 제어·로봇·시스템학회 KCI등재
      2008-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2007-10-29 학회명변경 한글명 : 제어ㆍ자동화ㆍ시스템공학회 -> 제어ㆍ로봇ㆍ시스템학회
      영문명 : The Institute Of Control, Automation, And Systems Engineers, Korea -> Institute of Control, Robotics and Systems      		 KCI등재
      2005-01-01 평가 등재학술지 선정 (등재후보2차) KCI등재
      2004-01-01 평가 등재후보 1차 PASS (등재후보1차) KCI등재후보
      2002-07-01 평가 등재후보학술지 선정 (신규평가) KCI등재후보
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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 1.35 0.6 1.07
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.88 0.73 0.388 0.04
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