adolfbasil › industrial iot gateway › The challenges posed by the current Internet of Things
The challenges posed by the current Internet of Things
2023年03月13日
The challenges posed by the current Internet of Things system have given birth to a new network structure system. Over the past many years, a large number of standardized frameworks have been designed to solve many challenges and problems faced by the Internet of Things at a large scale.
At present, these frameworks all have the same basic requirement, which is to support the functional requirements of data, processes and terminal devices for execution. Serial Communication
The most famous of these are the frameworks defined by oneM2M and the Internet of Things World Forum (IOTWF). Below I will give an in-depth introduction to the two frameworks.
oneM2M IoT standard framework. In the process of standardizing machine-to-machine communication, the European Telecommunications Standards Institute (ETSI) created an association of technical application committees on M2M in 2008. The association was created to create a standard framework to accelerate people's M2M applications and M2M devices. Later, due to the worldwide recognition of the framework, the scope was extended to the field of Internet of Things.
After the M2M Technical Committee established the framework, other organizations also began to lay out the framework of the Internet of Things. In this context, Wi-Fi HaLow it is indispensable to specify a common M2M standard. After realizing the needs of the market, in 2012, ETSI and its member institutions launched a global initiative to unify the M2M framework. This initiative unifies the global M2M standard, accelerates the development of the Internet of Things Communication efficiency in communication systems and the Internet of Things. The purpose of the initiative is to create a common service layer, which can be directly nested into the device facilities, enabling service communication between devices. These include power grid interconnection, automotive hardware interoperability, industrial equipment health monitoring, intelligent measurement and other equipment interoperability services.
The OneM2M architecture roughly divides the functions of the Internet of Things into three architectures: application layer, service layer and network layer. Although the architecture looks very simple in the literal sense, its performance is very diverse. It not only allows each device to interoperate with each other through calling the IT networking interface, but also supports a large number of new and old IoT devices. technology.
At present, these frameworks all have the same basic requirement, which is to support the functional requirements of data, processes and terminal devices for execution. Serial Communication
The most famous of these are the frameworks defined by oneM2M and the Internet of Things World Forum (IOTWF). Below I will give an in-depth introduction to the two frameworks.
oneM2M IoT standard framework. In the process of standardizing machine-to-machine communication, the European Telecommunications Standards Institute (ETSI) created an association of technical application committees on M2M in 2008. The association was created to create a standard framework to accelerate people's M2M applications and M2M devices. Later, due to the worldwide recognition of the framework, the scope was extended to the field of Internet of Things.
After the M2M Technical Committee established the framework, other organizations also began to lay out the framework of the Internet of Things. In this context, Wi-Fi HaLow it is indispensable to specify a common M2M standard. After realizing the needs of the market, in 2012, ETSI and its member institutions launched a global initiative to unify the M2M framework. This initiative unifies the global M2M standard, accelerates the development of the Internet of Things Communication efficiency in communication systems and the Internet of Things. The purpose of the initiative is to create a common service layer, which can be directly nested into the device facilities, enabling service communication between devices. These include power grid interconnection, automotive hardware interoperability, industrial equipment health monitoring, intelligent measurement and other equipment interoperability services.
The OneM2M architecture roughly divides the functions of the Internet of Things into three architectures: application layer, service layer and network layer. Although the architecture looks very simple in the literal sense, its performance is very diverse. It not only allows each device to interoperate with each other through calling the IT networking interface, but also supports a large number of new and old IoT devices. technology.
What is the difference between BLE and traditional Bluetooth
LBT wireless communication technology functions
Can TCP and UDP bind to the same port at the same time?
What is the future development potential of antenna
Oil exploration wells are scattered and numerous in number
Wi-Fi 6 Advantages
LBT wireless communication technology functions
Can TCP and UDP bind to the same port at the same time?
What is the future development potential of antenna
Oil exploration wells are scattered and numerous in number
Wi-Fi 6 Advantages
Posted by adolfbasil at 14:26│Comments(0)
│industrial iot gateway