Laboratoire de Génie Informatique et d’Automatique de l’Artois


Ph.D. student
(Left the LGI2A in 2015)
Member of the research themes:

Conférence Internationale avec Comité de Lecture

Gestion temps réel d’un réseau d’assainissement basée sur la simulation d’un modèle continu
11e Congrès International de Génie Industriel, CIGI2015, Québec, Canada, 10/2015
Gestion temps réel d’un réseau d’assainissement basée sur la simulation d’un modèle continu
10th International Conference on Modeling, Optimization & SIMulation, MOSIM 2014, Nancy, France, 5-7, 11/2014

Conférence Nationale avec Comité de Lecture

Un modèle continu pour la simulation de réseau d’assainissement sous Matlab
Actes de la 9ème édition de la conférence MajecSTIC, MajecSTIC 2012, Lille, 29-30, 10/2012

Conférence Nationale sans Comité de Lecture

Conception d’un Assainissement Régulé Dynamique et Intelligent pour l’Ostrevent
Optimisation de la gestion des systèmes d'assainissement pour la protection des milieux aquatiques, Bordeaux, France, 19-20, 03/2014

Author of the Ph.D. thesis "Study and Model design for dynamic management of sewer systems: Application to Somain city"

2012 - 2015

Generally, real-time management of sewer systems uses two main tools. The first software one, dedicated to weather forecast is known by their imprecision and uncertainty. The main issue of the second one concerns their computational complexity, which becomes a burden, as they require temporal important steps of decision. This leads to an important problem, where the obtained results are generally different from the really waited ones.

The main idea and objective of the CARDIO project, which are the core of this thesis, is to deal with this important problem using a new paradigm based on “automatic” concepts rather than applied from “hydrology” point of view. Such approach allows the realization of a large amount of numerical simulation in a fast way during a very short time (a few seconds). This allows dispensing of weather forecast by using real-time meditative pluviometric data directly. The objective is to achieve a system where the decision-making is made based on reliable data and also, the error correction is permanent.


2012 - 2015

Design of Dynamic and Intelligent Regulated Sanitation Network in Ostrevent region

Summary :

The CARDIO project consists in regulating at best the residual capacities of the retention basins to reduce the discharges in the natural environment and to limit the floods. The main idea is to change the basic paradigm by approaching the problematic by the "automatic" face rather than the "hydrology" one.