We present a vertical integration of a real-time Industrial Internet of Things environment with Cloud computing functionalities. We designed our testbed to implement self-adaptive wings for motorbikes using pressure values sensed in specific locations of the motorbike as input data collected exploiting open-hardware devices called OpenMotes which communicate through a low-power, delay-constrained wireless network based on the 6LoWPAN protocol stack. Our real-time on-board unit elaborates the data, and it computes the new angle of attack of two wings. The total response time of the system is in the order of 100 ms and meets the real-time requirements that constrains our scenario. Finally, we integrate our system with Cloud functionalities that we use for storing the acquired data on a time-series database.
From Sensors to the Cloud: A Real-Time Use-case on Vertical Integration
Portaluri G.
;Tamburello M.;Giordano S.
2019-01-01
Abstract
We present a vertical integration of a real-time Industrial Internet of Things environment with Cloud computing functionalities. We designed our testbed to implement self-adaptive wings for motorbikes using pressure values sensed in specific locations of the motorbike as input data collected exploiting open-hardware devices called OpenMotes which communicate through a low-power, delay-constrained wireless network based on the 6LoWPAN protocol stack. Our real-time on-board unit elaborates the data, and it computes the new angle of attack of two wings. The total response time of the system is in the order of 100 ms and meets the real-time requirements that constrains our scenario. Finally, we integrate our system with Cloud functionalities that we use for storing the acquired data on a time-series database.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
