Article
Journal/Revue :
Journal of Information Technology Research (JITR)
ISSN : 1938-7857
Publisher :
Informations
Année : 2018
Volume : 11 Numéro : 4
Pages : 32--52
Détails
Multi-Layer Agent Based Architecture for Internet of Things Systems
Sofia Kouah Ilham Kitouni
Nowadays, the Internet of things (IoT) is becoming a promising technology which revolutionizes and simplifies our daily life style. It allows interaction and cooperation between a large variety of pervasive objects over wireless and wired connections, in order to achieve specific goals. Moreover, it provides a concise integration of physical world into computer systems through network infrastructure. This paper provides an agent-based architecture for developing IoT systems. The proposed architecture is multi-layer and generic. It encompasses four layers: Physical Component Management, Local Management -Coordination, Global Management-Coordination and Specialized Operative Management Layers. The first one can be seen as a smart layer that ensures connection and communication between things and the system. The second one constitutes the intelligent core of the system which acts locally to ensure coordination and further internal functioning. The third layer ensures coordination between the local system and the externals ones. The last layer supports additional behaviors which are domain dependent. The architecture is illustrated by an IoT system diagnosis.
Réf. de citation :
misc-lab-216
DOI :
10.4018/JITR.2018100103
Lien :
Texte intégral
ACM :
S. Kouah and I. Kitouni. 2018. Multi-Layer Agent Based Architecture for Internet of Things Systems. Journal of Information Technology Research (JITR), 11, 4, IGI Global, 32--52. DOI: https://doi.org/10.4018/JITR.2018100103.
APA :
Kouah, S. & Kitouni, I. (2018). Multi-Layer Agent Based Architecture for Internet of Things Systems. Journal of Information Technology Research (JITR), 11(4), IGI Global, 32--52. DOI: https://doi.org/10.4018/JITR.2018100103
IEEE :
S. Kouah and I. Kitouni, "Multi-Layer Agent Based Architecture for Internet of Things Systems". Journal of Information Technology Research (JITR), vol. 11, no. 4, IGI Global, pp. 32--52, 2018. DOI: https://doi.org/10.4018/JITR.2018100103.
BibTeX :
@article{misc-lab-216,
author = {Kouah, Sofia and Kitouni, Ilham},
title = {Multi-Layer Agent Based Architecture for Internet of Things Systems},
journal = {Journal of Information Technology Research (JITR)},
volume = {11},
number = {4},
issn = {1938-7857},
pages = {32----52},
publisher = {IGI Global},
year = {2018},
doi = {10.4018/JITR.2018100103},
url = {https://www.igi-global.com/gateway/article/212608}
}
RIS :
TI  - Multi-Layer Agent Based Architecture for Internet of Things Systems
AU - S. Kouah
AU - I. Kitouni
PY - 2018
SN - 1938-7857
JO - Journal of Information Technology Research (JITR)
VL - 11
IS - 4
SP - 32
EP -
PB - IGI Global
AB - Nowadays, the Internet of things (IoT) is becoming a promising technology which revolutionizes and simplifies our daily life style. It allows interaction and cooperation between a large variety of pervasive objects over wireless and wired connections, in order to achieve specific goals. Moreover, it provides a concise integration of physical world into computer systems through network infrastructure. This paper provides an agent-based architecture for developing IoT systems. The proposed architecture is multi-layer and generic. It encompasses four layers: Physical Component Management, Local Management -Coordination, Global Management-Coordination and Specialized Operative Management Layers. The first one can be seen as a smart layer that ensures connection and communication between things and the system. The second one constitutes the intelligent core of the system which acts locally to ensure coordination and further internal functioning. The third layer ensures coordination between the local system and the externals ones. The last layer supports additional behaviors which are domain dependent. The architecture is illustrated by an IoT system diagnosis.
DO - 10.4018/JITR.2018100103
UR - https://www.igi-global.com/gateway/article/212608
ID - misc-lab-216
ER -