Savaglio, Claudio; Leppänen, Teemu; Russo, Wilma; Riekki, Jukka; Fortino, Giancarlo (2018) Re-Engineering IoT Systems through ACOSO-Meth : the IETF CoRE based agent framework case study. In Cossentino et al. eds. Proceedings of the 19th Workshop "From Objects to Agents" (WOA 2018), Palermo, Italy, June 28-29, 2018, CEUR Workshop Proceedings, vol 2215, pp. 81-89.
Re-engineering IoT systems through ACOSO-Meth : the IETF CoRE based agent framework case study
|Author:||Savaglio, Claudio1; Leppänen, Teemu2; Russo, Wilma1;|
1Dept. of Informatics, Modelling, Electronics and Systems (DIMES), University of Calabria, 87036 Rende (CS), Italy
2Center for Ubiquitous Computing, University of Oulu, FI-90014, Finland
|Online Access:||PDF Full Text (PDF, 0.9 MB)|
|Persistent link:|| http://urn.fi/urn:nbn:fi-fe2018110747453
RWTH Aachen University,
|Publish Date:|| 2018-11-07
The Agent-based Cooperating Smart Objects methodology (ACOSO-Meth) fully supports the systematic development of Internet of Things (IoT) systems from analysis to implementation by tackling their manifold requirements (e.g., self-management, distributed smartness, interoperability). At the same time, ACOSO-Meth allows the re-engineering of existing IoT systems, thus enhancing their maintainability, reusability and extensibility. In such direction, this paper (i) first presents the integration of the resource-oriented agent framework complying with the IETF Constrained RESTful Environment (CoRE) framework into ACOSO-Meth; then (ii) reports a case study to exemplify the re-engineering of a resource-constrained agent application through the ACOSO-Meth metamodel-driven approach.
CEUR workshop proceedings
|Pages:||81 - 89|
Proceedings of the 19th Workshop "From Objects to Agents" (WOA 2018), Palermo, Italy, June 28-29, 2018
|Host publication editor:||
Workshop "From Objects to Agents"
|Type of Publication:||
A4 Article in conference proceedings
|Field of Science:||
213 Electronic, automation and communications engineering, electronics
113 Computer and information sciences
This work has been carried out under the framework of INTERIoT, Research and Innovation action - Horizon 2020 European Project, Grant Agreement #687283, financed by the European Union.
© 2018 for the individual papers by the papers' authors. Copying permitted for private and academic purposes.