18 research outputs found
An innovative collaborative high-performance platform for simulation
This paper presents an innovative collaborative visualization platform for the simulation-based design applications. Following the scope and the main objectives, the general architecture based on the internet standard technologies is explained. Based on a multi-domain approach, several demonstrators are involved crossing interests of industrial and academic communities. Related to the field of process engineering, we adapt and deploy a web-based architecture research application on the targeted platform
Collaborative simulation and scientific big data analysis: Illustration for sustainability in natural hazards management and chemical process engineering
Classical approaches for remote visualization and collaboration used in Computer-Aided Design and Engineering (CAD/E) applications are no longer appropriate due to the increasing amount of data generated, especially using standard networks. We introduce a lightweight and computing platform for scientific simulation, collaboration in engineering, 3D visualization and big data management. This ICT based platform provides scientists an “easy-to-integrate” generic tool, thus enabling worldwide collaboration and remote processing for any kind of data. The service-oriented architecture is based on the cloud computing paradigm and relies on standard internet technologies to be efficient on a large panel of networks and clients. In this paper, we discuss the need of innovations in (i) pre and post processing visualization services, (ii) 3D large scientific data set scalable compression and transmission methods, (iii) collaborative virtual environments, and (iv) collaboration in multi-domains of CAD/E. We propose our open platform for collaborative simulation and scientific big data analysis. This platform is now available as an open project with all core components licensed under LGPL V2.1. We provide two examples of usage of the platform in CAD/E for sustainability engineering from one academic application and one industrial case study. Firstly, we consider chemical process engineering showing the development of a domain specific service. With the rise of global warming issues and with growing importance granted to sustainable development, chemical process engineering has turned to think more and more environmentally. Indeed, the chemical engineer has now taken into account not only the engineering and economic criteria of the process, but also its environmental and social performances. Secondly, an example of natural hazards management illustrates the efficiency of our approach for remote collaboration that involves big data exchange and analysis between distant locations. Finally we underline the platform benefits and we open our platform through next activities in innovation techniques and inventive design
Capteurs électrochimiques en carbone greffés par des fonctions spécifiques pour la détection de micropolluants métalliques
National audienc
Surface modifications in protic ionic liquids: Application to water monitoring
International audienc
Surface modifications in protic ionic liquid: application to water monitoring
International audienc
Elaboration de capteurs à base de polymères à empreintes moléculaires (MIPs) pour la détection de micropolluants prioritaires dans les eaux
National audienc
Élaboration d'électrodes carbonées sérigraphiées pour la détection de micropolluants en milieux aqueux
National audienc
Modifications de surface en milieu liquide ionique protique: Application aux capteurs électrochimiques
National audienc