Stability Analysis of One Class of Delay Differential Algebraic Equation(DAE) 一类退化时滞微分方程系统稳定性分析
Control of Nonlinear Regular Differential Algebraic Equation(DAE) Systems 非线性正则代数微分方程系统的控制
Tracing of singularity induced bifurcation in power system differential algebraic equation model and its theoretical analysis 电力系统微分代数模型奇异诱导分岔点的搜索及其理论分析
Linearization and Decoupling Control for a Class of Nonlinear Differential algebraic Equation Systems 一类非线性微分代数方程(DAE)系统的线性化解耦控制
With the rapid development of power industry, the power system, which is a nonlinear differential algebraic equation ( NDAE ) system with numerous dimensions, gradually will be characteristic as large generator units, ultra-high voltage and smart. 随着现代电力行业的迅猛发展,我国电力系统将逐步打造成以大机组、大电网、超高压以及智能化为特征的巨维非线性微分代数系统。