System Modeling of Microfluidic Molecular Communication: A Markov Approach
Ruifeng Zheng, Pengjie Zhou, Pit Hofmann, Fatima Rani, Juan A. Cabrera, Frank H. P. Fitzek
本文介绍了基于马尔可夫的微流体分子通信(MC)通道系统模型。 通过离散缺陷动力学,拟议的模型建立了一个物理上一致的状态空间公式。 过渡矩阵显式捕获扩散、建议流、可逆绑定和流出效应。 由此产生的离散时间公式通过线性系统表示对瞬态和平衡响应进行分析表征。 数字结果验证了拟议的框架在广泛的流量条件下准确地再现了通道行为,为微流体环境中MC系统的设计和分析提供了可追踪的基础。
This paper presents a Markov-based system model for microfluidic molecular communication (MC) channels. By discretizing the advection-diffusion dynamics, the proposed model establishes a physically consistent state-space formulation. The transition matrix explicitly captures diffusion, advective flow, reversible binding, and flow-out effects. The resulting discrete-time formulation enables analytical characterization of both transient and equilibrium responses through a linear system representat...