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In-Depth Information
The structure of the paper is as follows: Sect. 2 presents the service delivery model
for the Internet of Things including the service lifecycle modules. Section 3 analyses
the required autonomic deployment operations based to identify autonomic require-
ments and desired functionality for IoT systems. Section 4 introduces the approach for
an autonomic agent for services deployment with focus in the Internet of Things.
Section 5 explains initial experiments conducted with he autonomic agent in the
framework of running experiments in large-scale distributed platforms with a particular
scenario on cloud infrastructures management for IoT cloud Data. Section 6 concludes
the paper and de
ne some next steps and
nally some references are included.
2 Service Delivery Model for IoT
The current state-of-the-art about service delivery model for the Internet of Things
consists of interdependent modules and their interactions [ 1 ] to support application(s)
demands.
The details for the service lifecycle can be found at [ 2 ], It is relevant to highlight the
event-driven nature and the self-x coordination aspects. The autonomic aspects affect
not only the organizational view of the service lifecycle but also its operational
behaviour. E.g. it enables semantic control to achieve interoperability and exploits the
information necessary to control and manage IoT services.
The OpenIoT platform from a design conception includes reusability capabilities and
autonomics. OpenIoT follows a service lifecycle or control loop that introduces auto-
nomic principles for service management solutions. The OpenIoT lifecycle is presented
in Fig. 1 . From physical domain (sensor and actuators) to application (monitoring,
billing, visualisation for example) OpenIoT pursues the objective of annotating infor-
mation, describes them in/through services and use data models to enable end user
services in a more autonomous form. OpenIoT can be seen as an extensible, reusable
common manageability platform, which provides for the IoT space autonomic func-
tionality for better managing resources, networks, systems and services [ 3 ].
Fig. 1.
Internet of Things service control loop
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