03-03-2017, 04:50 PM
Fog or fog computing, also known as fogging, is an architecture that uses one or more collaborative multitudes of end user clients or edge devices close to the user to perform a substantial amount of storage (rather than storage). Data centers in the cloud), communication (rather than routing through the Internet network), control, configuration, measurement and management (rather than controlled primarily by network gateways such as The main LTE network).
Concept
Fog computing can be perceived both in large cloud systems and in large data structures, referring to the increasing difficulties in accessing information objectively. This results in a lack of quality of the content obtained. The effects of cloud computing on cloud computing and large data systems may vary; However, a common aspect that can be extracted is a limitation in the precise distribution of content, an issue that has been addressed with the creation of metrics that try to improve accuracy. The fog connection consists of a control plane and a data plane. For example, in the data plane, cloud computing allows computing services to reside at the edge of the network as opposed to servers in a data center. Compared to cloud computing, cloud computing emphasizes proximity to end users and customer goals, dense geographic distribution and pooling of local resources, reduced latency for quality of service (QoS), and redundancy In case of failure.
The fog network supports the Internet of Things (IoT) concept, in which most devices used by humans on a daily basis will be connected to each other. Examples include telephones, health monitoring devices that can be used, connected vehicles, and augmented reality using devices such as Google Glass. ISO / IEC 20248 provides a method by which data of the objects identified by edge computing using an AIDC, a bar code and / or an RFID tag can be read, interpreted, verified and made available in the "Fog" The "edge" even when the AIDC tag has moved on.
Concept
Fog computing can be perceived both in large cloud systems and in large data structures, referring to the increasing difficulties in accessing information objectively. This results in a lack of quality of the content obtained. The effects of cloud computing on cloud computing and large data systems may vary; However, a common aspect that can be extracted is a limitation in the precise distribution of content, an issue that has been addressed with the creation of metrics that try to improve accuracy. The fog connection consists of a control plane and a data plane. For example, in the data plane, cloud computing allows computing services to reside at the edge of the network as opposed to servers in a data center. Compared to cloud computing, cloud computing emphasizes proximity to end users and customer goals, dense geographic distribution and pooling of local resources, reduced latency for quality of service (QoS), and redundancy In case of failure.
The fog network supports the Internet of Things (IoT) concept, in which most devices used by humans on a daily basis will be connected to each other. Examples include telephones, health monitoring devices that can be used, connected vehicles, and augmented reality using devices such as Google Glass. ISO / IEC 20248 provides a method by which data of the objects identified by edge computing using an AIDC, a bar code and / or an RFID tag can be read, interpreted, verified and made available in the "Fog" The "edge" even when the AIDC tag has moved on.