Academic literature on the topic 'Modélisation du process'
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Journal articles on the topic "Modélisation du process":
de Malherbe, Etienne. "MODELING PRIVATE EQUITY FUNDS AND PRIVATE EQUITY COLLATERALISED FUND OBLIGATIONS." International Journal of Theoretical and Applied Finance 07, no. 03 (May 2004): 193–230. http://dx.doi.org/10.1142/s0219024904002359.
Heyna, Franziska. "Modélisation sémantique des verbes ENXER à base substantivale." Cognitive Studies | Études cognitives, no. 14 (September 4, 2014): 149–71. http://dx.doi.org/10.11649/cs.2014.013.
Laurent, M., M. Prodel, A. Civet, A. Vainchtock, C. Moutet, V. Dauphinot, and P. Krolak-Salmon. "Modélisation des parcours de soins dans la maladie d'Alzheimer : utilisation d'une méthode de « process mining »." Revue d'Épidémiologie et de Santé Publique 71 (March 2023): 101444. http://dx.doi.org/10.1016/j.respe.2023.101444.
Lessard, P., D. Martel, and B. Desjardins. "Modélisation du comportement des matières en suspension à l'effluent d'un décanteur primaire lamellaire." Canadian Journal of Civil Engineering 20, no. 5 (October 1, 1993): 767–77. http://dx.doi.org/10.1139/l93-102.
Simon, Yves, Jean François Foucaut, and Gérard Scacchi. "Étude expérimentale et modélisation théorique de la décomposition du radical éthyle." Canadian Journal of Chemistry 66, no. 9 (September 1, 1988): 2142–50. http://dx.doi.org/10.1139/v88-340.
Andronikof-Sanglade, Anne. "Interpretation and the Response Process." Rorschachiana 20, no. 1 (January 1995): 49–63. http://dx.doi.org/10.1027/1192-5604.20.1.49.
Zerrouk, N. E., and C. Marche. "Une modélisation théorique nouvelle de la rupture par submersion d'une digue en terre et sa validation." Canadian Journal of Civil Engineering 31, no. 5 (October 1, 2004): 797–812. http://dx.doi.org/10.1139/l04-062.
RHIMI, Mohamed Lamine. "Le multilinguisme et la créolisation : des invariants rhétoriques opératoires dans l’esthétique du Chaos-monde d’Édouard Glissant1." Revue plurilingue : Études des Langues, Littératures et Cultures 3, no. 1 (November 15, 2019): 9–30. http://dx.doi.org/10.46325/ellic.v3i1.39.
Parrenin, Frédéric, and Amaëlle Landais. "La datation des archives glaciaires." La Météorologie, no. 110 (2020): 018. http://dx.doi.org/10.37053/lameteorologie-2020-0070.
Laloë, Francis. "Modelling sustainability: from applied to involved modeling." Social Science Information 46, no. 1 (March 2007): 87–107. http://dx.doi.org/10.1177/0539018407073659.
Dissertations / Theses on the topic "Modélisation du process":
Ulmer, Jean-Stéphane. "Approche générique pour la modélisation et l'implémentation des processus." Thesis, Toulouse, INPT, 2011. http://www.theses.fr/2011INPT0002/document.
A company must be able to describe and to remain responsive against endogenous or exogenous events. Such flexibility can be obtained with the Business Process Management (BPM). Through a BPM approach, different transformations operate on process models, developed by the business analyst and IT expert. A non-alignment is created between these heterogeneous models during their manipulation: this is the "business-IT gap" as described in the literature. The objective of our work is to propose a methodological framework for a better management of business processes in order to reach a systematic alignment from their modelling to their implementation within the target system. Using concepts from Model-driven Enterprise and Information System engineering, we define a generic approach ensuring an intermodal consistency. Its role is to maintain and provide all information related to the model structure and semantics. By allowing a full restitution of a transformed model, in the sense of reverse engineering, our platform enables synchronization between analysis model and implementation model. The manuscript also presents the possible match between process engineering and BPM through a multi- erspective scale
Dopler, Thomas. "Low pressure infiltration process modeling." Châtenay-Malabry, Ecole centrale de Paris, 1999. http://www.theses.fr/1999ECAP0673.
Lu, Xiaofei. "Modélisation du carnet d’ordres, Applications Market Making." Thesis, Université Paris-Saclay (ComUE), 2018. http://www.theses.fr/2018SACLC069/document.
This thesis addresses different aspects around the market microstructure modelling and market making problems, with a special accent from the practitioner’s viewpoint. The limit order book (LOB), at the heart of financial market, is a complex continuous high-dimensional queueing system. We wish to improve the knowledge of LOB for the research community, propose new modelling ideas and develop concrete applications to the interest of Market Makers. We would like to specifically thank the Automated Market Making team for providing a large high frequency database of very high quality as well as a powerful computational grid, without whom these researches would not have been possible. The first chapter introduces the incentive of this research and resumes the main results of the different works. Chapter 2 fully focuses on the LOB and aims to propose a new model that better reproduces some stylized facts. Through this research, not only do we confirm the influence of historical order flows to the arrival of new ones, but a new model is also provided that captures much better the LOB dynamic, notably the realized volatility in high and low frequency. In chapter 3, the objective is to study Market Making strategies in a more realistic context. This research contributes in two aspects : from one hand the newly proposed model is more realistic but still simple enough to be applied for strategy design, on the other hand the practical Market Making strategy is of large improvement compared to the naive one and is promising for practical use. High-frequency prediction with deep learning method is studied in chapter 4. Many results of the 1-step and multi-step prediction have found the non-linearity, stationarity and universality of the relationship between microstructural indicators and price change, as well as the limitation of this approach in practice
Pujol, Arnaud. "Modélisation du procédé de compostage - Impact du phénomène de séchage." Thesis, Toulouse, INPT, 2012. http://www.theses.fr/2012INPT0015/document.
Composting may look like a simple process. However, it requires an important expertise, as the biological response is governed by the control parameters (temperature, oxygen, moisture content), involving many coupled phenomena. Given the complexity of the studied mechanisms and in order to optimize the process, using a composting model seems relevant to understand the mechanisms involved, identify the effects of coupling between these mechanisms, highlight some key factors or compare different scenarios, in order to optimize the industrial process. The state of the art of composting models in the literature shows that today, despite the large number of composting models, there is none that can predict, with a formulation in time and space, temperature, concentration of gases (oxygen, carbon dioxide, nitrogen, ...), moisture content, transfers between phases, degradation of the substrate, and take into account the changes in aeration. The development of a new model was therefore necessary to predict the evolution of these variables and study their coupling in the process. The technique of volume averaging applied to the pore scale equations has led to a composting model at the Darcy-scale. This model takes into account a gas phase, a liquid phase and a solid phase. The gas phase includes four species: oxygen, carbon dioxide, nitrogen and water vapor. In the liquid phase, only water is considered. Drying is integrated into the model as an exchange term between gas and liquid phases. Finally, the biological model, included in the composting model, allows to take into account the degradation of the substrate. It is divided into three fractions: readily hydrolysable, slowly hydrolysable and inert. The first two fractions are hydrolized, providing a readily assimilable soluble fraction. It is this fraction that is directly consumed by bacteria. In a composting process, degradation of organic matter is associated with oxygen consumption and production of carbon dioxyde, water and heat. The assumption of thermal and chemical local equilibrium was assumed in this work. However, for water, the two approaches (Local Equilibrium (LE) and Local Non-Equilibrium (LNE)) have been numerically tested. The results showed that when , the water mass exchange coefficient between gas and liquid phases, ranges from 1 to 4 s-1, the LE and LNE approaches are equivalent, with less computing time for the LNE case. Thus, for all future simulations, it was decided to adopt a LNE approach with a value of equal to 2.5 s-1. Tests were then carried out to show the consistency of the model. Given the large number of parameters, a sensitivity analysis was performed to determine the parameters that have the greatest impact on the process. This analysis showed that one must be cautious about the values used for the heat capacity, a coefficient of the sorption isotherm, many parameters from the biological model (ksH, krH, μmax, Xa,0, Tmax, Topt, Xi,0, Xrb,0) and porosity, because these are the parameters that affect mainly the process. Finally, the results provided by the model were compared with experimental results obtained at a pilot scale of 1/1000 using identical operating conditions. The composting experiments were carried out by Veolia Environment Research and Innovation with a mixture of household biowaste and green waste. The results on the 1/1000 scale pilot showed that the model is good at capturing the average change in temperature and concentration during the process. The temperature at the central point in particular is very well reproduced by the model. The same applies to the assessment of organic matter degradation. Simulations at industrial scale (1/1) have also been carried out. They have given promising results
Kasdali, Sihem. "Modélisation complexe de l’impact des dispositifs de formation à distance." Thesis, Cergy-Pontoise, 2014. http://www.theses.fr/2014CERG0722/document.
This research aims at analysing the impact, in this case, of the changes led by technopedagogical systems of distance education, on the behavior of learners, trainers or future trainers.To do so, we adopt a systemic approach based on modeling complex systems. The implementation of our model aims at highlighting the interrelations that can exist between the individual and his system, and the structure that may arise, their evolution and their entanglement at different stages. Thus, the dynamics of change is appreciated in its environment, and highlights the active variables in order to build its intelligibility.Our research intention has thus the ambition of not considering the training as a variable explaining the dynamics of change, but to try to understand, like in each training, a set of variables used, leading to results while other variables do not allow it to happen. Our proposal consists of identifying possible relevant variables, the “process variables”. These describe, across time, the space and the processing that are implemented in this dynamics
Constant, Camille. "Modélisation stochastique et analyse statistique de la pulsatilité en neuroendocrinologie." Thesis, Poitiers, 2019. http://www.theses.fr/2019POIT2330.
The aim of this thesis is to propose several models representing neuronal calcic activity and unsderstand its applicatition in the secretion of GnRH hormone. This work relies on experience realised in INRA Centre Val de Loire. Chapter 1 proposes a continuous model, in which we examine a Markov process of shot-noise type. Chapter 2 studies a discrete model type AR(1), based on a discretization of the model from Chapter 1 and proposes a first estimation of the parameters. Chapter 3 proposes another dicrete model, type AR(1), in which the innovations are the sum of a Bernouilli variable and a Gaussian variable representing a noise, and taking into account a linear drift . Estimations of the parameters are given in order to detect spikes in neuronal paths. Chapter 4 studies a biological experience involving 33 neurons. With the modelisation of Chapter 3, we detect synchronization instants (simultaneous spkike of a high proportion of neurons of the experience) and then, using simulations, we test the quality of the method that we used and we compare it to an experimental approach
Montellano, Garcia Ramón Francisco. "Un système d'aide à la modélisation et à la conduite de bioprocédés." Grenoble INPG, 1989. http://www.theses.fr/1989INPG0081.
Lambolais, Thomas. "Modélisation du développement de spécifications LOTOS." Vandoeuvre-les-Nancy, INPL, 1997. http://www.theses.fr/1997INPL106N.
Suri, Kunal. "Modeling the internet of things in configurable process models." Electronic Thesis or Diss., Université Paris-Saclay (ComUE), 2019. http://www.theses.fr/2019SACLL005.
On the one hand, a growing number of multi-national organizations have embraced the Process-Aware Information Systems (PAIS) to reap the benefits of using streamlined processes that are based on predefined models, also called as Business Process (BP) models. However, today's dynamic business environment demands flexibility and systematic reuse of BPs, which is provided by the use of Configurable Process Models (CPMs). It avoids the development of processes from scratch, which is both time-consuming and error-prone, and facilitates the sharing of a family of BP variants that can be customized based on concrete business requirements. On the other hand, the adoption of the Internet of Things (IoT) resources in various cross-organizational BPs is also on a rise. However, to attain the desired business value, these IoT resources must be used efficiently. These IoT devices are heterogeneous due to their diverse properties and manufactures (proprietary standards), which leads to issues related to interoperability. Further, being resource-constrained, they need to be allocated (and consumed) keeping in the mind relevant constraints such as energy cost, computation cost, to avoid failures during the time of their consumption in the processes. Thus, it is essential to explicitly model the IoT resource perspective in the BP models during the process design phase. In the literature, various research works in Business Process Management (BPM) domain are usually focused on the control-flow perspective. While there do exist some approaches that focus on the resource perspective, they are typically dedicated to the human resource perspective. Thus, there is limited work on integrating the IoT resource perspective into BPs, without any focus on solving issues related to heterogeneity in IoT domain. Likewise, in the context of CPMs, there is no configuration support to model IoT resource variability at the CPM level. This variability is a result of specific IoT resource features such as Shareability and Replication that is relevant in the context of BPs. In this thesis, we address the aforementioned limitations by proposing an approach to integrate IoT perspective in the BPM domain and to support the development of IoT-Aware CPMs. This work contributes in the following manner: (1) it provides a formal description of the IoT resource perspective and its relationships with the BPM domain using semantic technology and (2) it provides novel concepts to enable configurable IoT resource allocation in CPMs. To validate our approach and to show its feasibility, we do the following: (1) implement proof of concept tools that assist in the development of IoT-aware BPs and IoT-aware CPMs and (2) perform experiments on the process model datasets. The experimentation results show the effectiveness of our approach and affirm its feasibility
Le, Pivert Patrick. "Contribution à la modélisation et à la simulation réaliste des processus d'usinage." Châtenay-Malabry, Ecole centrale de Paris, 1998. http://www.theses.fr/1998ECAP0553.
Books on the topic "Modélisation du process":
Gaetan, Carlo. Modélisation et statistique spatiales. Berlin, Heidelberg: Springer-Verlag Berlin Heidelberg, 2008.
Bris, Claude. Systèmes multi-échelles: Modélisation et simulation. Berlin, Heidelberg: Springer Berlin Heidelberg, 2005.
Bakker, J. W. de 1939-, Roever, W.-P. de, 1943-, Rozenberg Grzegorz, and School/Workshop on Linear Time, Branching Time, and Partial Order in Logics and Models for Concurrency (1988 : Noordwijkerhout, Netherlands), eds. Linear time, branching time, and partial order in logics and models for concurrency: School/Workshop, Noordwijkerhout, The Netherlands, May 30-June 3, 1988. Berlin: Springer-Verlag, 1989.
G, Harrison Peter. Performance modelling of communication networks and computer architectures. Wokingham, England: Addison-Wesley, 1993.
Ontario. Le curriculum de l'Ontario de la 1re à la 8e année: Enseignement religieux pour les écoles catholiques de langue française. Toronto, Ont: Imprimeur de la Reine, 1999.
Ontario. Le curriculum de l'Ontario de la 1re à la 8e année: Sciences et technologie. Toronto, Ont: Imprimeur de la Reine, 1998.
Ontario. Le curriculum de l'Ontario de la 1re à la 8e année: Français. Toronto, Ont: Imprimeur de la Reine, 2006.
Ontario. Le curriculum de l'Ontario de la 1re à la 8e année: Éducation physique et santé. Toronto, Ont: Imprimeur de la Reine, 1998.
Ontario. Le curriculum de l'Ontario de la 1re à la 8e année: Mathématiques. Toronto, Ont: Imprimeur de la Reine, 2005.
Ontario. Le curriculum de l'Ontario de la 1re à la 8e année: Actualisation linguistique en français et perfectionnement du français. Toronto, Ont: Imprimeur de la Reine, 2002.
Book chapters on the topic "Modélisation du process":
Chatoney, Marjolaine, Jean-François Herold, and Patrice Laisney. "Chapitre 1. L’enseignement-apprentissage un système complexe d’interaction : essai de modélisation du complexe." In Le processus d'enseignement-apprentissage, 17–34. L'Harmattan, 2020. http://dx.doi.org/10.3917/har.chato.2020.01.0017.
Conference papers on the topic "Modélisation du process":
Boone, Veronique Joanna, and Denis Derycke. "Analyse architecturale, modélisation 3D et narration filmique : un regard original sur quelques objets corbuséens." In LC2015 - Le Corbusier, 50 years later. Valencia: Universitat Politècnica València, 2015. http://dx.doi.org/10.4995/lc2015.2015.764.