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Main Authors: Solyman, Loaie, Ahmad, Aamir, El-Badawy, Ayman
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.03708
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author Solyman, Loaie
Ahmad, Aamir
El-Badawy, Ayman
author_facet Solyman, Loaie
Ahmad, Aamir
El-Badawy, Ayman
contents We propose a SCHMM LMPC framework, integrating Semi Continuous Hidden Markov Models with Lyapunov based Model Predictive Control, for distributed optimal control of multi agent systems under network imperfections. The SCHMM captures the stochastic network behavior in real time, while LMPC ensures consensus and optimality via Linear Matrix Inequalities LMIs. The developed optimal control problem simultaneously minimizes three elements. First, the control effort is reduced to avoid aggressive inputs and second, the network induced error caused by time delays and packet dropouts. Third, the topology-induced error, as the distributed graph restricts agents access to global information. This error is inherent to the communication graph and cannot be addressed through offline learning. To overcome this, the study also introduces the incremental Expectation Maximization EM algorithm, enabling online learning of the SCHMM. This adaptation allows the framework to mitigate both network and topology errors while maintaining optimality through MPC. Simulations validate the effectiveness of the proposed SCHMM LMPC, demonstrating adaptability in multi agent systems with diverse topologies.
format Preprint
id arxiv_https___arxiv_org_abs_2512_03708
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Lyapunov-based MPC for Distributed Multi Agent Systems with Time Delays and Packet Dropouts using Hidden Markov Models
Solyman, Loaie
Ahmad, Aamir
El-Badawy, Ayman
Optimization and Control
We propose a SCHMM LMPC framework, integrating Semi Continuous Hidden Markov Models with Lyapunov based Model Predictive Control, for distributed optimal control of multi agent systems under network imperfections. The SCHMM captures the stochastic network behavior in real time, while LMPC ensures consensus and optimality via Linear Matrix Inequalities LMIs. The developed optimal control problem simultaneously minimizes three elements. First, the control effort is reduced to avoid aggressive inputs and second, the network induced error caused by time delays and packet dropouts. Third, the topology-induced error, as the distributed graph restricts agents access to global information. This error is inherent to the communication graph and cannot be addressed through offline learning. To overcome this, the study also introduces the incremental Expectation Maximization EM algorithm, enabling online learning of the SCHMM. This adaptation allows the framework to mitigate both network and topology errors while maintaining optimality through MPC. Simulations validate the effectiveness of the proposed SCHMM LMPC, demonstrating adaptability in multi agent systems with diverse topologies.
title A Lyapunov-based MPC for Distributed Multi Agent Systems with Time Delays and Packet Dropouts using Hidden Markov Models
topic Optimization and Control
url https://arxiv.org/abs/2512.03708