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| - | === Infrastructure and architectures for Iot Data processing: Cloud, Fog, and Edge computing=== | ||
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| - | The IoT generates a vast amount of Big Data and this in turn puts a huge strain on Internet Infrastructure. As a result, this forces companies to find solutions to minimise the pressure and solve their problem of transferring large amounts of data. Cloud computing has entered the mainstream of information technology, providing scalability in delivery of enterprise applications and Software as a Service (SaaS). Companies are now migrating their information operations to the cloud. Many cloud providers can allow for your data to be either transferred via your traditional internet connection or via a dedicated direct link. The benefit of a direct link into the cloud will ensure that your data is uncontended and that the traffic is not crossing the internet and the Quality of Service can be controlled. As the IoT proliferates, | ||
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| - | Cloud computing and the IoT both serve to increase efficiency in everyday tasks and both have a complementary relationship. | ||
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| - | The IoT owes its explosive growth to the connection of physical things and operational technologies to analytics and machine learning applications, | ||
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| - | Moreover, having every device connected to the cloud and sending raw data over the internet can have privacy, security and legal implications, | ||
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| - | The Fog/Edge layer is the perfect junction where there are enough compute, storage and networking resources to mimic cloud capabilities at the edge and support the local ingestion of data and the quick turnaround of results. Main benefits of Fog/Edge computing are the following: | ||
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| - | * Increased network capacity: Fog computing uses much less bandwidth, which means it doesn’t cause bottlenecks and other similar occupancies. Less data movement on the network frees up network capacity, which then can be used for other things. | ||
| - | * Real time operation: Fog computing has much higher expedience than any other cloud computing architecture we know today. Since all data analysis is being done at the spot, it represents a true real-time concept, which means it is a perfect match for the needs of IoT concepts. | ||
| - | * Data security: Collected data is more secure when it doesn’t travel. It also makes data storing much simpler because it stays in its country of origin. Sending data abroad might violate certain laws. | ||
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| - | The current trend shows that Fog computing will continue to grow in usage and importance as the IoT expands and conquers new grounds. With inexpensive, | ||
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| - | Fog/edge computing has the potential to revolutionise the IoT in the next several years. It seems obvious that while Cloud is a perfect match for the IoT, we have other scenarios and IoT technologies that demand low-latency ingestion and immediate processing of data where Fog computing is the answer. Fog/Edge computing improves efficiency and reduces the amount of data that needs to be sent to the cloud for processing. But it’s here to complement the cloud, not replace it. The cloud will continue to have a pertinent role in the IoT cycle. In fact, with Fog computing shouldering the burden of short-term analytics at the edge, cloud resources will be freed to take on the heavier tasks, especially where the analysis of historical data and large datasets is concerned. Insights obtained by the cloud can help update and tweak policies and functionality at the fog layer. To sum up, it is the combination of Fog and Cloud computing that will accelerate the adoption of the IoT, especially for the enterprise. | ||
