Article Dans Une Revue IEEE Control Systems Letters Année : 2025

Towards a Partial Pole Placement for Systems of Differential Equations With Commensurate Delays: The Planar System Case

Résumé

Recent studies have introduced a stabilization framework entitled Partial Pole Placement (PPP) for linear time-invariant single-input/single-output (LTI SISO) systems with input delay. By exploiting the delay as a control parameter, this approach enables the precise prescription of the closed-loop solution's exponential decay rate by directly assigning the spectral abscissa of the associated quasipolynomial. The foundation of PPP lies in a spectral property called Multiplicity-induced-dominancy (MID). For quasipolynomials with a single delay, the generic MID (GMID) property serves as both a cornerstone and the most striking manifestation of the MID principle, asserting that a spectral value with maximal multiplicity is necessarily dominant. However, a key limitation of the GMID is its restricted parametric flexibility, which constrains its applicability to control design. In this paper, we show how to harness the MID more effectively by highlighting the advantages of intermediate multiplicities for control applications in multiple-input/multiple-output (MIMO) systems with input delay. To this end, the validity of the intermediate (overorder) MID (IMID) property is investigated, then exploited in the design of a state-feedback achieving a prescribed exponential stabilization of the solution of planar dynamical systems with input delay.

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hal-05113252 , version 1 (15-06-2025)

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Islam Boussaada, Fazia Bedouhene, Silviu-Iulian Niculescu. Towards a Partial Pole Placement for Systems of Differential Equations With Commensurate Delays: The Planar System Case. IEEE Control Systems Letters, 2025, pp.1-1. ⟨10.1109/LCSYS.2025.3577641⟩. ⟨hal-05113252⟩
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