Abstract
With the continuous development and improvement of science and technology, optical fiber transmission has been transformed from traditional manual transmission to automatic transmission, and the transmission efficiency is constantly improving. In order to further analyze the performance of the intelligent optical fiber transmission process, the differential evolution analysis method is introduced in this paper, integrated architecture is built through the integrated optical and intelligent optical fiber, and the corresponding vector signal error value is solved through the comparison of transmission schemes. The error value is about 9%, through simulation experiments, which can effectively meet the requirement of automation of the wireless radio frequency of the intelligent optical fiber transmission system and realize long-distance transmission.
Highlights
With the continuous development of social economy, there has been a full development in both hardware and software for data transmission, for example, from the perspective of hardware, the latest technologies such as smart optical fiber and software technologies such as radio frequency technology, while the content of transmission has changed from the most primitive data, images, voice, and video to diverse multimedia [1,2,3]
Compared with traditional access methods, the smart optical fiber access can be used for a lower maintenance cost and a lower update frequency [7, 8]
E so-called wireless radio frequency transmission uses light as the relevant carrier and converts the photoelectric data into the radio frequency signal in the transmission bandwidth signal in the optical fiber. is is a new type of transmission method with low cost, low loss, and long transmission distance. Such transmission mode has gradually become the main method of communication transmission
Summary
With the continuous development of social economy, there has been a full development in both hardware and software for data transmission, for example, from the perspective of hardware, the latest technologies such as smart optical fiber and software technologies such as radio frequency technology, while the content of transmission has changed from the most primitive data, images, voice, and video to diverse multimedia [1,2,3]. DAC clock jitter noise is a Gaussian process with an average value of 0, and the resulting signal-to-noise ratio [15] is shown in the following formula: SNRDAC. E output signal-to-noise ratio after processing the bandwidth through the VSA can be expressed by the following formula: SNRVSA. Because each network intelligence is concentrated in the central station, the transmission ratio control of each independent area signal can be realized through each central station, which simplifies the construction of the base station and reduces the power consumption and cost of the entire system and facilitates the system upgrading and maintenance. Compared with the above typical structure, its structure can realize grid-based efficient management, make more effective use of optical fiber resources, and achieve stronger self-upgrading and maintenance capabilities
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