À l’échelle planétaire, l’empreinte environnementale du numérique représente un continent de 2 à 3 fois la taille de la France et 5 fois le poids du parc automobile français. Une cause majeure de cette catastrophe écologique serait la surabondance d’objets connectés, liée notamment à un usage irraisonné, amplifié par une logique de surconsommation. Afin de limiter l’impact négatif de cette surabondance et d’optimiser le potentiel informatique émanant de notre environnement connecté, nous proposons dans cet article un modèle d’architecture, basé sur le concept d’artefact, visant à favoriser la mutualisation des composants présents au sein de nos appareils connectés. Pour montrer sa faisabilité et les avantages liés à son utilisation, nous proposons une implémentation de ce modèle pour la plateforme Android.
On a global scale, the environmental footprint of digital technology represents a continent 2 to 3 times the size of France and 5 times the weight of the French car fleet. The major cause of this ecological disaster would be the overabundance of connected objects, linked in particular to an irrational use amplified by a logic of over-consumption. In order to limit the negative impact of this overabundance and to optimize the computing potential emerging from our environment, we propose in this article an architecture model, based on the concept of artifact, in order to promote the mutualization of the components present within our connected devices. To show its feasibility and advantages related to its use, we propose an implementation of this model for the Android platform.
Révisé le :
Accepté le :
Publié le :
Keywords: Green T, Ubiquitous computing, mutualization, Agents & Artifacts meta-model, Real-time multi-agents systems.
Richard Fontaine 1 ; Rémy Courdier 2 ; Denis Payet 3
@article{ROIA_2022__3_3-4_393_0, author = {Richard Fontaine and R\'emy Courdier and Denis Payet}, title = {Vers une utilisation \'eco responsable des objets connect\'es par la mutualisation de leurs composants physiques~~: {Une} approche bas\'ee sur le concept d{\textquoteright}artefact}, journal = {Revue Ouverte d'Intelligence Artificielle}, pages = {393--413}, publisher = {Association pour la diffusion de la recherche francophone en intelligence artificielle}, volume = {3}, number = {3-4}, year = {2022}, doi = {10.5802/roia.36}, language = {fr}, url = {https://roia.centre-mersenne.org/articles/10.5802/roia.36/} }
TY - JOUR AU - Richard Fontaine AU - Rémy Courdier AU - Denis Payet TI - Vers une utilisation éco responsable des objets connectés par la mutualisation de leurs composants physiques : Une approche basée sur le concept d’artefact JO - Revue Ouverte d'Intelligence Artificielle PY - 2022 SP - 393 EP - 413 VL - 3 IS - 3-4 PB - Association pour la diffusion de la recherche francophone en intelligence artificielle UR - https://roia.centre-mersenne.org/articles/10.5802/roia.36/ DO - 10.5802/roia.36 LA - fr ID - ROIA_2022__3_3-4_393_0 ER -
%0 Journal Article %A Richard Fontaine %A Rémy Courdier %A Denis Payet %T Vers une utilisation éco responsable des objets connectés par la mutualisation de leurs composants physiques : Une approche basée sur le concept d’artefact %J Revue Ouverte d'Intelligence Artificielle %D 2022 %P 393-413 %V 3 %N 3-4 %I Association pour la diffusion de la recherche francophone en intelligence artificielle %U https://roia.centre-mersenne.org/articles/10.5802/roia.36/ %R 10.5802/roia.36 %G fr %F ROIA_2022__3_3-4_393_0
Richard Fontaine; Rémy Courdier; Denis Payet. Vers une utilisation éco responsable des objets connectés par la mutualisation de leurs composants physiques : Une approche basée sur le concept d’artefact. Revue Ouverte d'Intelligence Artificielle, Volume 3 (2022) no. 3-4, pp. 393-413. doi : 10.5802/roia.36. https://roia.centre-mersenne.org/articles/10.5802/roia.36/
[1] Un modèle multi-agents pour la représentation de l’action située basé sur l’affordance et la stigmergie, Ph. D. Thesis, Université de la Réunion (2015)
[2] A survey on context-aware systems, International Journal of Ad Hoc and Ubiquitous Computing, Volume 2 (2007) no. 4, pp. 263-277 | DOI
[3] Ambient Intelligence in the City overview and new perspectives, Handbook of ambient intelligence and smart environments, Springer, Boston, MA, 2010, pp. 911-938 | DOI
[4] Multi-agent oriented programming with JaCaMo, Science of Computer Programming, Volume 78 (2013) no. 6, pp. 747-761 | DOI
[5] Study – The environmental footprint of the digital world, GreenIT, 2019, 39 pages
[6] Internet of things : evolutions and innovations, John wiley & sons, 2017 | DOI
[7] Numérique : le grand gâchis énergétique, CNRS Le journal, Volume 16, 2018
[8] From Algorithm to Agent, Computational Science – ICCS 2009 (2009), pp. 825-834 | DOI
[9] Multiagent systems engineering : A methodology and language for designing agent systems (1999) (Technical report)
[10] SKUAD, Software Kit for Ubiquitous Agent Development, 2018 (http://skuad.onover.top/)
[11] Web-of-things framework for cyber–physical systems, Concurrency and Computation : Practice and Experience, Volume 23 (2011) no. 9, pp. 905-923 | DOI
[12] EU Commission, Critical raw materials, Internal Market, Industry, Entrepreneurship and SMEs, 2020 (https://ec.europa.eu/growth/sectors/raw-materials/specific-interest/critical_en)
[13] Les systèmes multi-agents : vers une intelligence collective, I.I.A. Informatique intelligence artificielle, InterEditions, France, 1995
[14] Vers une utilisation éco responsable des objets connectés par la mutualisation de leurs composants physiques : Une approche basée sur le concept d’artefact, Actes de la conférence nationale en intelligence artificielle CNIA - PFIA 2020, Angers, 2020, Volume 23 (2020), 38 pages
[15] Integrating ontologies with multi-agent systems through CArtAgO artifacts, 2015 IEEE/WIC/ACM International Conference on Web Intelligence and Intelligent Agent Technology (WI-IAT), Volume 2 (2015), pp. 143-150 | DOI
[16] Ontology-based smart IoT engine for personal comfort management, 2016 11th International Workshop on Semantic and Social Media Adaptation and Personalization (SMAP) (2016), pp. 35-40 | DOI
[17] The theory of affordances, Perceiving, acting, and knowing : toward an ecological psychology (Robert E Shaw; John Bransford, eds.), Lawrence Erlbaum Associates, Hillsdale, N.J., 1977, pp. 67-82
[18] Middleware and application adaptation requirements and their support in pervasive computing (2003), pp. 98-103 | DOI
[19] On agent-based software engineering, Artificial intelligence, Volume 117 (2000) no. 2, pp. 277-296 | DOI | Zbl
[20] Towards a hierarchy of loco-manipulation affordances, 2016 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS) (2016), pp. 2839-2846 | DOI
[21] Autonomous detection and experimental validation of affordances, IEEE Robotics and Automation Letters, Volume 3 (2018) no. 3, pp. 1949-1956 | DOI
[22] Extraction of whole-body affordances for loco-manipulation tasks, International Journal of Humanoid Robotics, Volume 12 (2015) no. 03, 1550031 | DOI
[23] Pervasive Systems in Health Care, Handbook of Ambient Intelligence and Smart Environments (Hideyuki Nakashima; Hamid Aghajan; Juan Carlos Augusto, eds.), Springer US, Boston, MA, 2010, pp. 315-346 | DOI
[24] Future internet : the internet of things architecture, possible applications and key challenges, 2012 10th international conference on frontiers of information technology (2012), pp. 257-260 | DOI
[25] et al. People, places, things : Web presence for the real world, Mobile Networks and Applications, Volume 7 (2002) no. 5, pp. 365-376 | DOI | Zbl
[26] A Survey of Context-Aware Middleware, Proceedings of the 25th Conference on IASTED International Multi-Conference : Software Engineering (SE’07) (2007), pp. 148-155
[27] Using the affordance concept for model design in agent-based simulation, Annals of Mathematics and Artificial Intelligence, Volume 78 (2016) no. 1, pp. 21-44 | DOI | MR
[28] A agentified use of the Internet of Things, Full Paper in 9th IEEE International Conference on Internet of Things(iThings 2016) (2016) | DOI | HAL
[29] SAPHIRE : A Multi-Agent System for Remote Healthcare Monitoring through Computerized Clinical Guidelines, Agent Technology and e-Health (2008), pp. 25-44 | DOI
[30] How to agentify the Internet-of-Things ?, 2018 12th International Conference on Research Challenges in Information Science (RCIS) (2018), pp. 1-6 | DOI
[31] Software agents meet internet of things, Internet Technology Letters, Volume 1 (2018) no. 3, e17 | DOI
[32] Middleware for Robotics : A Survey, RAM (2008), pp. 736-742 | DOI
[33] Artifacts in the A&A meta-model for multi-agent systems, Autonomous agents and multi-agent systems, Volume 17 (2008) no. 3, pp. 432-456 | DOI
[34] Arguing about task reallocation using ontological information in multi-agent systems, 12th International Workshop on Argumentation in Multiagent Systems, Volume 108 (2015)
[35] An Architecture for the Development of Ambient Intelligence Systems Managed by Embedded Agents, SEKE (2018), p. 215-214 | DOI
[36] Smart Offices and Intelligent Decision Rooms, Handbook of Ambient Intelligence and Smart Environments (Hideyuki Nakashima; Hamid Aghajan; Juan Carlos Augusto, eds.), Springer US, Boston, MA, 2010, pp. 851-880 | DOI
[37] Environment programming in CArtAgO, Multi-agent programming, Springer, 2009, pp. 259-288 | DOI | Zbl
[38] CArtA gO : A Framework for Prototyping Artifact-Based Environments in MAS, Environments for Multi-Agent Systems III (Danny Weyns; H. Van Dyke Parunak; FabienEditors Michel, eds.), Volume 4389, Springer Berlin Heidelberg, 2007, pp. 67-86 | DOI
[39] A multi-agent system for the production control of printed circuit boards using JaCaMo and Prometheus AEOlus, 2014 12th IEEE International Conference on Industrial Informatics (INDIN) (2014), pp. 236-241 | DOI
[40] Rationality and intelligence, Artificial Intelligence, Volume 1 (1997) no. 94, pp. 57-77 | DOI | Zbl
[41] A Component-Based Middleware Platform for Reconfigurable Service-Oriented Architectures, Software : Practice and Experience, Volume 42 (2012) no. 5, pp. 559-583 https://hal.inria.fr/inria-00567442 | DOI
[42] The promise of edge computing, Computer, Volume 49 (2016) no. 5, pp. 78-81 | DOI
[43] Building blocks for a participatory web of things : devices, infrastructures, and programming frameworks, Ph. D. Thesis, ETH Zurich (2011)
[44] Some computer science issues in ubiquitous computing, Communications of the ACM, Volume 36 (1993) no. 7, pp. 75-84 | DOI
[45] Agent-based software engineering, IEE Proceedings-software, Volume 144 (1997) no. 1, pp. 26-37 | DOI
Cité par Sources :