针对异构网络环境下信号在多通道中传输受到的网络诱导延时在每个通道不尽相同, 使得量化控制更加困难的问题. 文章首先运用两个马尔科夫链分别刻画有线和无线网络在同一/不同时刻每个通道的网络诱导延时特性并给出数学描述式, 进而建立了融合量化器参数和多通道异构网络诱导延时参量的马尔科夫跳变系统综合模型. 理论证明了在给定量化密度和最长网络诱导延时下闭环系统随机稳定, 并建立了量化参数、网络诱导延时和系统稳定性之间的关系. 最后, 仿真验证了所提方法可行且有效.

Different network-induced delay of each channel under hybrid network environment brings new challenges for quantized control for networked control systems. Two different Markov chains are firstly used to describe the characters of each channel network-induced delay of wireless and wired networks respectively, and the analytical formulation is also proposed. Markov jump system model that integrates quantizer parameter and network-induced delay parameter is then established. For the given density of quantization and the maximum network-induced delay, the close-loop system stochastic stability is presented, and the relationship between quantization parameter, network-induced delay and system stability is provided. Finally, simulation results confirm the effectiveness and feasibility of the proposed method.