# H${}^2$CM-based holonic modeling of a gas pipeline

**Authors:** Carlos Indriago (IRCCyN, LS2N, PSI), Lat\'efa Ghomri, Olivier Cardin, (PSI, LS2N, IUT NANTES)

arXiv: 1901.05671 · 2019-01-18

## TL;DR

This paper applies the H^2CM holonic control architecture to optimize gas pipeline management, aiming to improve response to demand and reduce gas wastage through a structured control model.

## Contribution

It introduces a novel application of H^2CM holonic modeling to gas pipeline control, detailing the architecture and proposing a preliminary control algorithm.

## Key findings

- Holonic architecture tailored for gas pipeline control
- Detailed roles and functions of each holon in the system
- A preliminary control algorithm outline

## Abstract

A gas pipeline is a relatively simple physical system, but the optimality of the control is difficult to achieve. When switching from one kind of gas to another , a volume of useless mixture is generated. Therefore, the control needs to both respond to the demand and minimize the volume of lost gas. In case of stable and perfectly known demand, scheduling techniques can be used, but in other cases , calculation times are incompatible with an industrial application. This article introduces the application of H${}^2$CM (Holonic Hybrid Control Model) generic architecture on this specific case. The study case is extensively presented. Then, the defined holonic architecture (H${}^2$CM compatible) is detailed, and the role and functions of each holon are presented. Finally, a tentative general control algorithm is suggested, which gives an insight on the actual algorithms that will be developed in perspective of this work.

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Source: https://tomesphere.com/paper/1901.05671