화학공학소재연구정보센터
SIAM Journal on Control and Optimization, Vol.59, No.1, 103-130, 2021
GEOMETRIC ANALYSIS OF DIFFERENTIAL-ALGEBRAIC EQUATIONS VIA LINEAR CONTROL THEORY
We consider linear differential-algebraic equations (DAEs) of the form Ex= Hx and the Kronecker canonical form (KCF) [L. Kronecker, Sitzungsberichte der Konigtich Preuflischen Akademie der Wissenschaften zu Berlin, 1890, pp. 1225-1237] of the corresponding matrix pencils sE - H. We also consider linear control systems and their Morse canonical form (MCF) [A. Morse, SIAM J. Control, 11 (1973), pp. 446-465; B. P. Molinari, Internat. J. Control, 28 (1978), pp. 493-5101. For a linear DAE, a procedure called explicitation is proposed, which attaches to any linear DAE a linear control system defined up to a coordinates change, a feedback transformation, and an output injection. Then we compare subspaces associated to a DAE in a geometric way with those associated (also in a geometric way) to a control system, namely, we compare the Wong sequences of DAEs and invariant subspaces of control systems. We prove that the KCF of linear DAEs and the MCF of control systems have a perfect correspondence and that their invariants are related. In this way, we connect the geometric analysis of linear DAEs with the classical geometric linear control theory. Finally, we propose a concept called internal equivalence for DAEs and discuss its relation with internal regularity, i.e., the existence and uniqueness of solutions.