Understand the difference between transparent transmission and non-transparent transmission in one minute!

The Internet of Things refers to a network that uses various sensors, identification technologies, communication technologies, etc. to interconnect various objects. It has the characteristics of large-scale, wide-area, complex, heterogeneous, real-time, etc., and is widely used in industry, transportation, medical, and home and other fields. In the Internet of Things, the way data is transmitted is crucial, as it directly affects the stability and performance of the entire system. Among them, transparent transmission and non-transparent transmission are two common terms. This article will analyze the definition, characteristics, application scenarios and other aspects to help you easily understand the difference between transparent transmission and non-transparent transmission in the Internet of Things.

1.Definition

Transparent transmission means that when data is transmitted, no special processing is done on the data and it is sent to the recipient intact. In other words, the transparent transmission channel is completely “transparent”. It does not matter what data the sender transmits, it is only responsible for sending the data to the receiver. The receiver can directly parse the data information sent by the sender.

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Non-transparent transmission means that when data is transmitted, the data needs to be encrypted or compressed before transmission, and then transmitted. When the receiver receives the data, it needs to decrypt or decompress the encrypted or compressed data to obtain the real data information. Therefore, non-transparent transmission usually requires the use of specific protocols and algorithms to achieve.

2.Features

The advantages of transparent transmission are fast transmission speed, high efficiency, and low cost. At the same time, the data transmission quality of transparent transmission is stable and errors are less likely to occur during the transmission process. However, transparent transmission also has some shortcomings, such as poor security and vulnerability to hacker attacks.

The advantage of non-transparent transmission is that data transmission is more secure and less susceptible to hacker attacks. At the same time, non-transparent transmission can implement more complex data processing and transmission methods. However, non-transparent transmission also has some disadvantages, such as slower transmission speed, higher cost, and errors prone to occur during the transmission process.

3. Application scenarios

Transparent transmission is usually used in scenarios that require high data transmission speed and low data security requirements, such as data transmission between home IoT devices, data transmission between industrial IoT devices, etc.

Non-transparent transmission is usually used in scenarios that require high data transmission security and complex data processing and transmission requirements, such as data transmission between banks and financial institutions, data transmission between medical institutions, etc.

4. Summary

To sum up, transparent transmission and non-transparent transmission are the two main methods of data transmission in the Internet of Things. Transparent transmission is characterized by fast transmission speed, high efficiency, and low cost, but poor security. It is suitable for scenarios with high data transmission speed and low data security requirements. Non-transparent transmission is characterized by data transmission security. High, it can realize more complex data processing and transmission methods, but the transmission speed is slow and the cost is high. It is suitable for scenarios that require high data transmission security and complex data processing and transmission methods. In practical applications, flexible selections should be made according to different scenarios and needs to improve the stability and performance of the IoT system.

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