Architecture to Integrate IoT Networks Using Artificial Intelligence in the Cloud

A smart home can maintain an updated and detailed record of air quality monitoring through a network of sensors and actuators. It provides a controlled environment free of toxic gases to the occupants of the house. The internet of things (IoT) smart network of this proposal is based on Artificial Intelligence algorithms and the management of large volumes of data (Big Data) through the connection between a Gateway and an IoT platform. When a user leaves their home, this is out of the range of the IoT network and therefore without information about exposure to toxic gases. To continue monitoring, the intelligent system finds for the closest air quality monitoring network within of the user usual route between home and work and learns it. The interconnection between the networks is made between the different platforms in the cloud, which handle the same group of parameters and services. The user stays connected to the main network (Smart Home) through the internet reporting their location and vital signs with an application on their smartwatch. During the route from home to work (round trip), the intelligent system is able to learn which the routes with different degrees of pollution are and selects the best route. At the end of the day, a user will know to what degree of contamination was exposed, and then can send a report to the doctor or use the data for other research purposes.

[1]  Mengxia Zhu,et al.  Energy-efficient task scheduling and consolidation algorithm for workflow jobs in cloud , 2016, Int. J. Comput. Sci. Eng..

[2]  M. J. Zaman,et al.  Bluetooth technology , 2002, IEEE Students Conference, ISCON '02. Proceedings..

[3]  Jaime Lloret,et al.  An architecture and protocol for smart continuous eHealth monitoring using 5G , 2017, Comput. Networks.

[4]  Antonio Pescapè,et al.  Integration of Cloud computing and Internet of Things: A survey , 2016, Future Gener. Comput. Syst..

[5]  James A. Covington,et al.  Design and Development of a Low-Cost, Portable Monitoring Device for Indoor Environment Quality , 2018, J. Sensors.

[6]  Adeel Javed Building Arduino Projects for the Internet of Things , 2016, Apress.

[7]  Rodney S. Tucker,et al.  Green Cloud Computing: Balancing Energy in Processing, Storage, and Transport , 2011, Proceedings of the IEEE.

[8]  Debanshee Saha,et al.  IoT based air quality monitoring system using wireless sensors deployed in public bus services , 2017, ICC.

[9]  Xiao Ma,et al.  Intelligent Healthcare Systems Assisted by Data Analytics and Mobile Computing , 2018, 2018 14th International Wireless Communications & Mobile Computing Conference (IWCMC).

[10]  Yu Xue,et al.  Cloud Model-Based Artificial Immune Network for Complex Optimization Problem , 2017, Comput. Intell. Neurosci..

[11]  Naixue Xiong,et al.  Real-Time Cloud-Based Health Tracking and Monitoring System in Designed Boundary for Cardiology Patients , 2018, J. Sensors.

[12]  Felix Wortmann,et al.  Internet of Things , 2015, Business & Information Systems Engineering.

[13]  Jaime Lloret,et al.  An m-health application for cerebral stroke detection and monitoring using cloud services , 2019, Int. J. Inf. Manag..

[14]  Randy H. Katz,et al.  A view of cloud computing , 2010, CACM.

[15]  Ren-Guey Lee,et al.  Development and Implementation of Wireless Multigas Concentration Cloud System , 2014 .

[16]  A. Kuo Opportunities and Challenges of Cloud Computing to Improve Health Care Services , 2011, Journal of medical Internet research.