|
Title:
|
SAASPORT MODEL: EXPLORING PROTOCOL
PORTABILITY, RESOURCE ELASTICITY
AND MICROSERVICE ARCHITECTURE
IN THE EFFICIENT EXECUTION OF IOT APPLICATIONS |
|
Author(s):
|
Maria Gisele Flores da Silveira, Wagner da Silva Silveira, Rodrigo da Rosa Righi, Cristiano André da Costa and Dalvan Griebler |
|
ISBN:
|
978-989-8704-34-4 |
|
Editors:
|
Pedro Isaías and Hans Weghorn |
|
Year:
|
2021 |
|
Edition:
|
Single |
|
Type:
|
Full |
|
First Page:
|
43 |
|
Last Page:
|
53 |
|
Language:
|
English |
|
Cover:
|
|
|
Full Contents:
|
click to dowload 
|
|
Paper Abstract:
|
Despite the high growth of the Internet of Things and the multitude of applications that use the information generated, it
is estimated that 90 % of these data are not yet fully used. This is because IoT systems are based on heterogeneous
networks and devices with resource restrictions, which cannot execute significant processing. So one of the alternatives
that have been addressed is the use of cloud applications, where the data can be appropriately processed, stored, and
analyzed. In the cloud, applications can then employ resource elasticity and be developed in microservice architectures.
In state-of-the-art, the main efforts to provide portability and efficient treatment of IoT applications are described.
However, a platform that provides protocol portability, resource elasticity using microservices architecture for the
efficient execution of IoT applications has not yet been implemented. In this context, this work presents SaaSport, which
among its contributions, will allow the efficient treatment of data generated by IoT devices that use the MQTT and CoAP
protocols. The final result of this work demonstrates that the model provides an efficient treatment of the data generated
in IoT environments. |
|
|
|
|
|
|
