https://sam.ensam.eu:443 The DSpace digital repository system captures, stores, indexes, preserves, and distributes digital research material. Wed, 15 Apr 2026 23:22:50 GMT 2026-04-15T23:22:50Z http://hdl.handle.net/10985/6877 Modèle d’analyse de la valeur de l’innovation des systèmes de produit-service ALIX, Thecle; ZACHAREWICZ, Gregory; PERRY, Nicolas Résumé – L’économie traditionnelle basée sur la vente d’un produit à un client est actuellement remise en question par l’intérêt grandissant de ce dernier pour la valeur d’usage du produit au-delà de sa valeur d’échange. En conséquence, les industriels doivent dorénavant considérer la satisfaction d’un besoin par la proposition d’un couple produit et service (PSS). Le traitement simultané de ces deux enjeux permettra d'améliorer la position dans la chaîne de valeur, d’accroître la valeur ajoutée de l’offre et d'améliorer le potentiel d'innovation de l’entreprise productrice de la solution PSS. Le challenge se situe donc dans l’optimisation du ratio valeur d’usage/prix de l’offre PSS pour le client et également pour l’industriel. Nous proposons dans cette contribution les prémices d’un modèle d’analyse de la valeur de l’innovation des systèmes de produits et services. Nous avons pour cela identifié les fonctions attendues d’un PSS pour le client et celles attendues par le fournisseur de la solution. Ces fonctions rapportées au coût global du système permettent de déterminer la valeur de l’offre pour les protagonistes et d’aider à la décision du développement effectif de l’offre. Abstract - The traditional economy based on selling products to clients is currently challenged by the growing user interest for the product use value than the product exchange value. Consequences for manufacturers are significant because they must now extend their skills to the fulfillment of a need through the delivery of an integrated set of products and services (PSS). The added service will improve the position in the value chain of the product, increase the added value of the offer and improve the innovation potential. These benefits of the PSS can be obtained considering the global design collaboration and the engineering work necessary to design and deliver PSS. The challenge therefore lies in optimizing the ratio value of use to cost of the PSS for the user as well as for the industry. We propose in this article the foundation of a model for analyzing the value of a PSS innovation. The model is built upon the list of function expected by the user and those expected by the provider of the system. Each list related to the system whole costs will give an idea of the value of the offer for each stakeholder and aggregating the value an aid to decide whether the development is to be launched or not. Sat, 01 Jan 2011 00:00:00 GMT http://hdl.handle.net/10985/6877 2011-01-01T00:00:00Z ALIX, Thecle ZACHAREWICZ, Gregory PERRY, Nicolas Résumé – L’économie traditionnelle basée sur la vente d’un produit à un client est actuellement remise en question par l’intérêt grandissant de ce dernier pour la valeur d’usage du produit au-delà de sa valeur d’échange. En conséquence, les industriels doivent dorénavant considérer la satisfaction d’un besoin par la proposition d’un couple produit et service (PSS). Le traitement simultané de ces deux enjeux permettra d'améliorer la position dans la chaîne de valeur, d’accroître la valeur ajoutée de l’offre et d'améliorer le potentiel d'innovation de l’entreprise productrice de la solution PSS. Le challenge se situe donc dans l’optimisation du ratio valeur d’usage/prix de l’offre PSS pour le client et également pour l’industriel. Nous proposons dans cette contribution les prémices d’un modèle d’analyse de la valeur de l’innovation des systèmes de produits et services. Nous avons pour cela identifié les fonctions attendues d’un PSS pour le client et celles attendues par le fournisseur de la solution. Ces fonctions rapportées au coût global du système permettent de déterminer la valeur de l’offre pour les protagonistes et d’aider à la décision du développement effectif de l’offre. Abstract - The traditional economy based on selling products to clients is currently challenged by the growing user interest for the product use value than the product exchange value. Consequences for manufacturers are significant because they must now extend their skills to the fulfillment of a need through the delivery of an integrated set of products and services (PSS). The added service will improve the position in the value chain of the product, increase the added value of the offer and improve the innovation potential. These benefits of the PSS can be obtained considering the global design collaboration and the engineering work necessary to design and deliver PSS. The challenge therefore lies in optimizing the ratio value of use to cost of the PSS for the user as well as for the industry. We propose in this article the foundation of a model for analyzing the value of a PSS innovation. The model is built upon the list of function expected by the user and those expected by the provider of the system. Each list related to the system whole costs will give an idea of the value of the offer for each stakeholder and aggregating the value an aid to decide whether the development is to be launched or not. http://hdl.handle.net/10985/14997 BPMN Modeling for hla based simulation and visualization GORECKI, Simon; BOUANAN, Youssef; ZACHAREWICZ, Gregory; PERRY, Nicolas Modeling and Simulation (M&S) is attempting to tackle more and more complex systems, which makes its design highly challenging. Complex systems’ M&S requires the consideration of several simultaneous points of view and involve skills from different scientific and technical fields. Distributed Simulation domain answers the question of coupling and running together heterogeneous components, e.g. IEEE 1516-2010 - High Level Architecture is one of the most used standard. However, none provides any official or at least recognized user-friendly (e.g. graphical) language to specify distributed simulation desired behavior. Due to its capacity to represent behavior of processes, Business Process Model and Notation (BPMN) standard could be an interesting solution for defining HLA execution scenario within a Model Driven Architecture approach. This paper aims to support the modeling phase of the HLA execution process in order to explicitly design the desired steps of orchestration between distributed HLA federates through the interpretation of a business process diagram. Mon, 01 Jan 2018 00:00:00 GMT http://hdl.handle.net/10985/14997 2018-01-01T00:00:00Z GORECKI, Simon BOUANAN, Youssef ZACHAREWICZ, Gregory PERRY, Nicolas Modeling and Simulation (M&S) is attempting to tackle more and more complex systems, which makes its design highly challenging. Complex systems’ M&S requires the consideration of several simultaneous points of view and involve skills from different scientific and technical fields. Distributed Simulation domain answers the question of coupling and running together heterogeneous components, e.g. IEEE 1516-2010 - High Level Architecture is one of the most used standard. However, none provides any official or at least recognized user-friendly (e.g. graphical) language to specify distributed simulation desired behavior. Due to its capacity to represent behavior of processes, Business Process Model and Notation (BPMN) standard could be an interesting solution for defining HLA execution scenario within a Model Driven Architecture approach. This paper aims to support the modeling phase of the HLA execution process in order to explicitly design the desired steps of orchestration between distributed HLA federates through the interpretation of a business process diagram. http://hdl.handle.net/10985/14996 Integrating HLA-Based Distributed Simulation for Management Science and BPMN GORECKI, Simon; BOUANAN, Youssef; ZACHAREWICZ, Gregory; RIBAUD, Judicaël; PERRY, Nicolas Modeling and Simulation are becoming more and more complex, making their design very challenging. Modeling and Simulation of complex systems requires simultaneous consideration of several points of view and the study of these systems needs skills belonging to different scientific fields. In Distributed Simulation domain, IEEE 1516-2010 - High Level Architecture (HLA) is one of the most used standard. However, it does not provide any official graphical language for defining distributed simulation behaviors. Business Process Model and Notation standard could be an interesting solution for defining HLA execution scenario. This paper present application experiment applied to solar power plant. Our proposition consists in restrict the HLA execution process in order to use one federate as Master, controlling the others as Slaves. This allows us to generate a component responsible for the simulation execution process with parsing a Business Process Model and Notation diagram. In this paper, we present an application of this concept. Mon, 01 Jan 2018 00:00:00 GMT http://hdl.handle.net/10985/14996 2018-01-01T00:00:00Z GORECKI, Simon BOUANAN, Youssef ZACHAREWICZ, Gregory RIBAUD, Judicaël PERRY, Nicolas Modeling and Simulation are becoming more and more complex, making their design very challenging. Modeling and Simulation of complex systems requires simultaneous consideration of several points of view and the study of these systems needs skills belonging to different scientific fields. In Distributed Simulation domain, IEEE 1516-2010 - High Level Architecture (HLA) is one of the most used standard. However, it does not provide any official graphical language for defining distributed simulation behaviors. Business Process Model and Notation standard could be an interesting solution for defining HLA execution scenario. This paper present application experiment applied to solar power plant. Our proposition consists in restrict the HLA execution process in order to use one federate as Master, controlling the others as Slaves. This allows us to generate a component responsible for the simulation execution process with parsing a Business Process Model and Notation diagram. In this paper, we present an application of this concept. http://hdl.handle.net/10985/14998 Using high level architecture to combine simulations in a company context: mobile factor GORECKI, Simon; ZACHAREWICZ, Gregory; PERRY, Nicolas Modeling and simulating play an important role in the industry, and even more in the innovative domain, for testing scenarios by anticipating different eventualities. Those simulations are often very complex and difficult to modify, that is why they could be built separately first and then run together. One of the most popular standards for distributed simulations is the IEEE 1516-2010-Evolved of the High Level Architecture (HLA) that supports implementation of distributed simulations. In our context, a company has launched a project of mobile factory to set up solar panel field in several countries. That implies various study domains and expertise (foundation definition, study of solar transmitters structure, risk analysis, project management, factory modeling). The goal of this paper is to demonstrate the interconnections proposed between all these entities. It will be implemented in the frame of a global simulation managed by HLA. Sun, 01 Jan 2017 00:00:00 GMT http://hdl.handle.net/10985/14998 2017-01-01T00:00:00Z GORECKI, Simon ZACHAREWICZ, Gregory PERRY, Nicolas Modeling and simulating play an important role in the industry, and even more in the innovative domain, for testing scenarios by anticipating different eventualities. Those simulations are often very complex and difficult to modify, that is why they could be built separately first and then run together. One of the most popular standards for distributed simulations is the IEEE 1516-2010-Evolved of the High Level Architecture (HLA) that supports implementation of distributed simulations. In our context, a company has launched a project of mobile factory to set up solar panel field in several countries. That implies various study domains and expertise (foundation definition, study of solar transmitters structure, risk analysis, project management, factory modeling). The goal of this paper is to demonstrate the interconnections proposed between all these entities. It will be implemented in the frame of a global simulation managed by HLA. http://hdl.handle.net/10985/18210 Including co-simulation in modeling and simulation tool for supporting risk management in industrial context GORECKI, Simon; BOUANAN, Youssef; RIBAULT, Judicael; ZACHAREWICZ, Gregory; PERRY, Nicolas Due to increasing complexity of engineered system of systems, development of software to design and support them must tend to be more and more concurrent and distributed. To more easily tackle these systems design, global problem is decomposed into several sub-ones where each sub problem is allocated and solved by different contributors. Each participant develops a fragment of the global solution that need after to be integrated with other ones. In this paper we present an extension to the UML/BPMN modeling and simulation tool: Papyrus. This module allows to factor complex tasks during the modelling step and simulation execution process. In detail, we propose to add risk management and other potential interruptions features to BPMN models and Simulation. This is made possible according to Functional Mock-up Interface standard, a co-simulation standard that define how to orchestrate components while simulation execution process. Mon, 01 Jan 2018 00:00:00 GMT http://hdl.handle.net/10985/18210 2018-01-01T00:00:00Z GORECKI, Simon BOUANAN, Youssef RIBAULT, Judicael ZACHAREWICZ, Gregory PERRY, Nicolas Due to increasing complexity of engineered system of systems, development of software to design and support them must tend to be more and more concurrent and distributed. To more easily tackle these systems design, global problem is decomposed into several sub-ones where each sub problem is allocated and solved by different contributors. Each participant develops a fragment of the global solution that need after to be integrated with other ones. In this paper we present an extension to the UML/BPMN modeling and simulation tool: Papyrus. This module allows to factor complex tasks during the modelling step and simulation execution process. In detail, we propose to add risk management and other potential interruptions features to BPMN models and Simulation. This is made possible according to Functional Mock-up Interface standard, a co-simulation standard that define how to orchestrate components while simulation execution process. http://hdl.handle.net/10985/14999 Using High Level Architecture in the SEE Project for Industrial Context GORECKI, Simon; ZACHAREWICZ, Gregory; PERRY, Nicolas Nowadays, systems are becoming more and more complex. Therefore, Modeling & Simulation (M&S) are also growing in complexity. That’s why it is important to form, train and graduate students and faculty. The National Aeronautics and Space Administration (NASA) host an international event of M&S oriented in, solving interoperability problems, Distributed Simulation (DS), and student cooperation. The goal is to use a DS standard: High Level Architecture (HLA) to simulate a moon base. Each team build a module of it and have to communicate with each other. This context will be propitious for student to learn HLA programming, in order to reuse it in an industrial manufacturing context. The use of HLA is interesting in order to couple already existent heterogeneous works. Mon, 01 Jan 2018 00:00:00 GMT http://hdl.handle.net/10985/14999 2018-01-01T00:00:00Z GORECKI, Simon ZACHAREWICZ, Gregory PERRY, Nicolas Nowadays, systems are becoming more and more complex. Therefore, Modeling & Simulation (M&S) are also growing in complexity. That’s why it is important to form, train and graduate students and faculty. The National Aeronautics and Space Administration (NASA) host an international event of M&S oriented in, solving interoperability problems, Distributed Simulation (DS), and student cooperation. The goal is to use a DS standard: High Level Architecture (HLA) to simulate a moon base. Each team build a module of it and have to communicate with each other. This context will be propitious for student to learn HLA programming, in order to reuse it in an industrial manufacturing context. The use of HLA is interesting in order to couple already existent heterogeneous works. http://hdl.handle.net/10985/14995 Including in hla federation functional mokup units for supporting interoperability and rensability in distributed simulation. BOUANAN, Youssef; GORECKI, Simon; RIBAUD, Judicaël; ZACHAREWICZ, Gregory; PERRY, Nicolas Modeling and Simulation is attempting to tackle more and more complexsystems, which makes their design highly challenging. Complex systems’ Modeling and Simulation (M&S) require the consideration of several simultaneouspoints of view and involve skills from different scientificand technicalfields. Distributed Simulation domainanswer the question of coupling and running together heterogeneous components, e.g. IEEE 1516-2010 -High Level Architecture is one of the mostused standard. Also, Functional Mockup Interface provide standard designedfor the coupling of simulation tools (simulator coupling, tool coupling), and coupling with subsystem models, which have been exported by their simulators together with its solversas runnable code.In this paper, we aim to provide bridge between HLA and FMI standard in order to couple those technologies Mon, 01 Jan 2018 00:00:00 GMT http://hdl.handle.net/10985/14995 2018-01-01T00:00:00Z BOUANAN, Youssef GORECKI, Simon RIBAUD, Judicaël ZACHAREWICZ, Gregory PERRY, Nicolas Modeling and Simulation is attempting to tackle more and more complexsystems, which makes their design highly challenging. Complex systems’ Modeling and Simulation (M&S) require the consideration of several simultaneouspoints of view and involve skills from different scientificand technicalfields. Distributed Simulation domainanswer the question of coupling and running together heterogeneous components, e.g. IEEE 1516-2010 -High Level Architecture is one of the mostused standard. Also, Functional Mockup Interface provide standard designedfor the coupling of simulation tools (simulator coupling, tool coupling), and coupling with subsystem models, which have been exported by their simulators together with its solversas runnable code.In this paper, we aim to provide bridge between HLA and FMI standard in order to couple those technologies http://hdl.handle.net/10985/19122 Risk management and distributed simulation in Papyrus tool for decision making in industrial context GORECKI, Simon; RIBAULT, Judicael; ZACHAREWICZ, Gregory; DUCQ, Yves; PERRY, Nicolas Modeling and Simulation (M&S) are important steps in the design of industrial systems and production plants. They help in anticipating and understanding these complex systems in order to make decisions about strategic implementations before effective development. Once the models are satisfyingly built, namely they correctly reflect the system, the simulation can offer many behavioral information to the user. In this paper, we are proposing to integrate risk management, hazard generation, and complexity issues in process modeling with data coming from industrial context: polar power plant design. In this context, risks and hazards must be modeled, but are too large to be in the main model. For this purpose, the paper presents some extensions to the modeling and simulation open source tool: Papyrus. This proposition consists in developing the Papyrus features for outsourcing risks and hazards out of the model, exporting simulation’s data in different components for decision making, and implementing distributed simulation mechanisms for dealing with reusability, and interoperability of components. Tue, 01 Jan 2019 00:00:00 GMT http://hdl.handle.net/10985/19122 2019-01-01T00:00:00Z GORECKI, Simon RIBAULT, Judicael ZACHAREWICZ, Gregory DUCQ, Yves PERRY, Nicolas Modeling and Simulation (M&S) are important steps in the design of industrial systems and production plants. They help in anticipating and understanding these complex systems in order to make decisions about strategic implementations before effective development. Once the models are satisfyingly built, namely they correctly reflect the system, the simulation can offer many behavioral information to the user. In this paper, we are proposing to integrate risk management, hazard generation, and complexity issues in process modeling with data coming from industrial context: polar power plant design. In this context, risks and hazards must be modeled, but are too large to be in the main model. For this purpose, the paper presents some extensions to the modeling and simulation open source tool: Papyrus. This proposition consists in developing the Papyrus features for outsourcing risks and hazards out of the model, exporting simulation’s data in different components for decision making, and implementing distributed simulation mechanisms for dealing with reusability, and interoperability of components. http://hdl.handle.net/10985/19177 A Multicomponent Distributed Framework for Smart Production System Modeling and Simulation GORECKI, Simon; POSSIK, Jalal; ZACHAREWICZ, Gregory; DUCQ, Yves; PERRY, Nicolas In order to control manufacturing systems, managers need risk and performance evaluation methods and simulation tools. However, these simulation techniques must evolve towards being multiperformance, multiactor, and multisimulation tools, and this requires interoperability between those distributed components. This paper presents an integrated platform that brings interoperability to several simulation components. This work expands the process modeling tool Papyrus to allow it to communicate with external components through both distributed simulation and cosimulation standards. The distributed modeling and simulation framework (DMSF) platform takes its environment into consideration in order to evaluate the sustainability of the system while integrating external heterogeneous components. For instance, a DMSF connection with external IoT devices has been implemented. Moreover, the orchestration of different smart manufacturing components and services is achieved through configurable business models. As a result, an automotive industry case study has successfully been tested to demonstrate the sustainability of smart supply chains and manufacturing factories, allowing better connectivity with their real environments. Wed, 01 Jan 2020 00:00:00 GMT http://hdl.handle.net/10985/19177 2020-01-01T00:00:00Z GORECKI, Simon POSSIK, Jalal ZACHAREWICZ, Gregory DUCQ, Yves PERRY, Nicolas In order to control manufacturing systems, managers need risk and performance evaluation methods and simulation tools. However, these simulation techniques must evolve towards being multiperformance, multiactor, and multisimulation tools, and this requires interoperability between those distributed components. This paper presents an integrated platform that brings interoperability to several simulation components. This work expands the process modeling tool Papyrus to allow it to communicate with external components through both distributed simulation and cosimulation standards. The distributed modeling and simulation framework (DMSF) platform takes its environment into consideration in order to evaluate the sustainability of the system while integrating external heterogeneous components. For instance, a DMSF connection with external IoT devices has been implemented. Moreover, the orchestration of different smart manufacturing components and services is achieved through configurable business models. As a result, an automotive industry case study has successfully been tested to demonstrate the sustainability of smart supply chains and manufacturing factories, allowing better connectivity with their real environments. http://hdl.handle.net/10985/19899 Business Models for Distributed-Simulation Orchestration and Risk Management GORECKI, Simon; POSSIK, Jalal; ZACHAREWICZ, Gregory; DUCQ, Yves; PERRY, Nicolas Nowadays, industries are implementing heterogeneous systems from different domains, backgrounds, and operating systems. Manufacturing systems are becoming more and more complex, which forces engineers to manage the complexity in several aspects. Technical complexities bring interoperability, risk management, and hazards issues that must be taken into consideration, from the business model design to the technical implementation. To solve the complexities and the incompatibilities between heterogeneous components, several distributed and cosimulation standards and tools can be used for data exchange and interconnection. High-level architecture (HLA) and functional mockup interface (FMI) are the main international standards used for distributed and cosimulation. HLA is mainly used in academic and defense domains while FMI is mostly used in industry. In this article, we propose an HLA/FMI implementation with a connection to an external business process-modeling tool called Papyrus. Papyrus is configured as a master federate that orchestrates the subsimulations based on the above standards. The developed framework is integrated with external heterogeneous components through an FMI interface. This framework is developed with the aim of bringing interoperability to a system used in a power generation company. Fri, 01 Jan 2021 00:00:00 GMT http://hdl.handle.net/10985/19899 2021-01-01T00:00:00Z GORECKI, Simon POSSIK, Jalal ZACHAREWICZ, Gregory DUCQ, Yves PERRY, Nicolas Nowadays, industries are implementing heterogeneous systems from different domains, backgrounds, and operating systems. Manufacturing systems are becoming more and more complex, which forces engineers to manage the complexity in several aspects. Technical complexities bring interoperability, risk management, and hazards issues that must be taken into consideration, from the business model design to the technical implementation. To solve the complexities and the incompatibilities between heterogeneous components, several distributed and cosimulation standards and tools can be used for data exchange and interconnection. High-level architecture (HLA) and functional mockup interface (FMI) are the main international standards used for distributed and cosimulation. HLA is mainly used in academic and defense domains while FMI is mostly used in industry. In this article, we propose an HLA/FMI implementation with a connection to an external business process-modeling tool called Papyrus. Papyrus is configured as a master federate that orchestrates the subsimulations based on the above standards. The developed framework is integrated with external heterogeneous components through an FMI interface. This framework is developed with the aim of bringing interoperability to a system used in a power generation company.