Abstract
I
NDUSTRIAL Internet of Things (IoT) has enabled many
new applications such as remote asset monitoring, predictive
maintenance in factory, wearable and implanted biomedical
sensors-based health and well-being monitoring, smart agriculture and viticulture monitoring, infrastructure monitoring,
power system monitoring, energy system security, power grid
quality, machine control, and many others. The IoT devices may
be embedded, implanted, submerged, or monitor the activity remotely, and feed data to a control system using wired or a variety
of wireless networks. A comprehensive infrastructure consisting
of densely deployed sensors, actuators, data aggregators, and
sophisticated decision and control systems can truly realize the
concept of a smart world.
NDUSTRIAL Internet of Things (IoT) has enabled many
new applications such as remote asset monitoring, predictive
maintenance in factory, wearable and implanted biomedical
sensors-based health and well-being monitoring, smart agriculture and viticulture monitoring, infrastructure monitoring,
power system monitoring, energy system security, power grid
quality, machine control, and many others. The IoT devices may
be embedded, implanted, submerged, or monitor the activity remotely, and feed data to a control system using wired or a variety
of wireless networks. A comprehensive infrastructure consisting
of densely deployed sensors, actuators, data aggregators, and
sophisticated decision and control systems can truly realize the
concept of a smart world.
Original language | English |
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Pages (from-to) | 4378 - 4380 |
Number of pages | 3 |
Journal | IEEE Transactions on Industry Applications |
Volume | 56 |
Issue number | 4 |
DOIs | |
Publication status | Published - 1 Aug 2020 |