Graphical Analysis of Nonlinear Multivariable Feedback Systems

Scaled Relative Graphs (SRGs) provide a novel graphical frequency-domain method for the analysis of nonlinear systems. There have been recent efforts to generalize SRG analysis to Multiple-Input Multiple-Output (MIMO) systems. However, these attempts yielded only results for square systems, and in some cases, only methods applicable for Linear Time-Invariant (LTI) systems. In this paper, we develop a complete SRG framework for the analysis of MIMO systems, which may be nonlinear and non-square. The key element is the embedding of operators to a space of operators acting on a common Hilbert space, while restricting the input space to the original input dimension. We develop interconnection rules that use restricted input spaces and stability theorems to guarantee causality, well-posedness and (incremental) $L_2$-gain bounds for the overall interconnection. We show utilization of the proposed theoretical concepts on the analysis of nonlinear systems in a linear fractional representation form, which is a rather general class of systems with a representation form directly utilizable for control. Moreover, we provide formulas for the computation of MIMO SRGs of stable LTI operators and diagonal static nonlinear operators. Finally, we demonstrate the capabilities of our proposed approach on several examples.