lmi linear matrix inequality 中文意思是什麼

lmi linear matrix inequality 解釋
線性矩陣不等式
  • lmi : 本地管理界面
  • linear : adj. 1. 線的,直線的。2. 長度的。3. 【數學】一次的,線性的。4. 【動、植】線狀的;細長的。5. 由線條組成的,以線條為主的,強調線條的。
  • matrix : n (pl matrices 或matrixes)1 【解剖學】子宮;母體;發源地,策源地,搖籃;【生物學】襯質細胞;間...
  • inequality : n. 1. 不平等,不平均,不平衡,不等量。2. 不相同,互異。3. 變動,變化,高低,起伏。4. 【數學】不等式;【天文學】均差。5. (平面等的)不平坦。6. 不勝任。
  1. Linear matrix inequality was introduced to cope with the puzzle of determining common positive matrix. theory of stability analysis and controller design was established based on lmi method. ( 3 ) nonlinear fuzzy p redictive c ontrol t heory b ased on t - s s tate s pace m odel was explored

    針對穩定性分析中公共正定矩陣p難以確定的難題,引入了lmi方法,藉助于成熟的數學工具,不僅解決了確定公共正定矩陣p的問題,而且建立了基於lmi方法的穩定性分析和控制器設計的理論方法。
  2. These conditions are expressed via the linear matrix inequality ( lmi )

    基於線性矩陣不等式( lmi )處理方法,給出了分散控制器存在的充分條件。
  3. The guaranteed cost control problem of robust stabilization and robust performance for uncertain systems which is described by 8 operator is discussed in this paper. the condition of existing guaranteed cost controller is analyzed and proved in which the method of linear matrix inequality ( lmi ) is used. a output feedback controller of the uncertain discrete time system described by 6 operator is designed, which guarantees the system is quadratic stabilization

    採用線性矩陣不等式( lmi )處理方法研究了delta運算元描述的不確定離散系統的輸出反饋保成本控制問題,設計了輸出反饋控制器,使得閉環不確定系統不僅是魯棒穩定的,而且對所有允許的不確定性,給定二次型性能指標的閉環性能值不超過某個確定的上界。
  4. Based on robust filtering theory, this paper develops polytopic models of uncertain multisensor system and centralized robust fusion estimation by linear matrix inequality ( lmi ) method, and proves the exact transforming condition, by which robust centralized estimation can be transformed to the distributed fusion method with the same fusion estimation performance

    本文以魯棒濾波理論為基礎,給出了不確定多傳感器系統的多胞型描述模型,並利用lmi方法給出集中式魯棒狀態融合估計問題的解,證明了將集中式魯棒融合估計轉化為相同估計性能的分散式融合估計演算法的條件。
  5. For state systems and semistate ( singular ) system, respectively, the problems of robust stability and the design of robust controller have been investigated based on linear matrix inequality ( lmi ), according to lyapunov - razumikhin stability and convex optimization theory, and barbalat ' s lemma and nonsingular linear transformation of model reduction, respectively

    針對完全狀態系統,採用lyapunovrazumikhin穩定性理論以及凸優化等重要理論,以線性矩陣不等式作為研究的工具,研究了魯棒穩定性、魯棒控制器的設計問題;針對不完全狀態(奇異)系統,基於barbalat引理以及非奇異線性降階變換,研究了奇異系統的魯棒穩定性、魯棒控制器的設計問題。
  6. Once this condition is feasible, a strict linear matrix inequality ( lmi ) design approach is developed with an explicit expression for decentralized state feedback controller

    當這組條件可解時,給出了分散狀態反饋控制器的嚴格線性矩陣不等式設計方法和控制律的表達式。
  7. Using lyapunov functional and linear matrix inequality ( lmi ) technique, and through the stability of subsystems decoupled in a single direction, we obtain an estimation formula of parameter ' s stability domain

    再利用標量lyapnov泛函和線性矩陣不等式技術,由單向解耦子系統的穩定性得到線性時滯大系統和非線性大系統參數穩定域的估計公式。
  8. By using a saturated feedback control structure, the control law is obtained by solving a linear matrix inequality ( lmi ) optimization problem on - line

    初始時刻優化問題的可行性保證了閉環控制系統的魯棒穩定性。
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