Differences
This shows you the differences between two versions of the page.
| Next revision | Previous revision | ||
| en:iot-open:power_efficiency_in_iot:power_requirements_in_iot [2018/06/07 20:24] – created Agrisnik | en:iot-open:power_efficiency_in_iot:power_requirements_in_iot [2020/07/20 12:00] (current) – external edit 127.0.0.1 | ||
|---|---|---|---|
| Line 1: | Line 1: | ||
| - | ===== Power efficiency | + | ===== ===== |
| - | The primary indicator of IOT, which provides practical network application, | + | <box # |
| - | The concept of a IOT provides that any network element uses an independent power supply. Any network element performs certain tasks in the common IOT network, which according to the network scenario, are pre-programmed. | + | <box # |
| + | ===== Power Efficiency | ||
| + | <box # | ||
| + | <box # | ||
| - | Looking at life cycle of the IOT, it is important to pay attention | + | The primary indicator of IoT, which provides a practical network application, |
| - | the algorithm used and the network | + | The concept |
| - | Often when actions are related | + | Looking at the life cycle of the IoT, it is essential to pay attention |
| + | the algorithm used and the network protocol. While developing the project | ||
| - | It is understandable that IOT devices can be seen as active for as long as they are capable of reading the information from the sensors correctly as well as transferring it to the coordinator node within a network. | + | Often when actions |
| - | IOT energy | + | |
| - | * The technical parameters of the node battery capacity as well as the capacity | + | |
| - | * Data collection frequency, which may depend on the situation and the environment in which the network operates. | + | |
| - | * Physical and channel level protocols | + | |
| - | * Network topology that defines amount of the transmitted information within | + | |
| - | * The use of routing protocols that complement | + | |
| - | Any IOT network | + | It is understandable that IoT devices can be seen as active for as long as they are capable of reading the information from the sensors correctly as well as transferring it to the coordinator node within a network. |
| - | Data collectors do not affect | + | IoT energy consumption depends on several factors: |
| + | * the technical parameters of the node battery capacity as well as the parameters of the processor, the transmitter, the sensors | ||
| + | * data collection frequency, which may depend on the situation and the environment in which the network operates; | ||
| + | * physical and channel level protocols that determine | ||
| + | * network topology that defines the amount of the transmitted information within each node including the flow of technical information; | ||
| + | * the use of routing protocols that complement the network | ||
| + | Any IoT network has three node types – the terminals, the routers and the coordinator or data collector. | ||
| + | Data collectors do not affect the overall life expectancy of a system because they are provided with a permanent power supply or are equipped with a much more powerful autonomous power supply. | ||
