2020 Vol.3 Aug. No.4

• Title: Performance optimization of laser communication link based on artificial intelligence technology
• Name: Mohamed Baza
• Company: Department of Computer Science, Sam Houston State University, Huntsville, TX 77340, USA
• Abstract:

   The traditional optimization method of laser communication link performance is often interrupted after optimization. In order to solve this problem, an optimization method of laser communication link performance based on artificial intelligence technology is designed. Firstly, the aiming error of laser communication link is calculated, and the interruption probability of laser communication link is analyzed. On this basis, the influence of random wobble of the aiming error angle of the transmitting terminal on the light fluctuation of the light intensity of the receiver is analyzed, the transmission matrix of laser communication channel is established, and the decision threshold is set to eliminate the influence of system noise. At the same time, the acquisition model of laser communication link is established to optimize the transmission power and interruption probability, so as to realize the optimization of laser communication link performance based on artificial intelligence technology. In the experiment, the interruption times of laser communication link are taken as the experimental objects. The experimental results show that the performance optimization method of laser communication link based on artificial intelligence technology is compared with that based on data theory, decision tree and control domain. In this design, the performance optimization method of laser communication link based on artificial intelligence technology is less than the other three methods, which can achieve effective data transmission.

  
  

• Keyword: artificial intelligence technology; laser; communication; link; interrupt
• DOI: 10.12250/jpciams2020040409
• Citation form: Mohamed Baza.Performance optimization of laser communication link based on artificial intelligence technology[J]. Computer Informatization and Mechanical System, 2020, vol. 3, pp. 36-51.

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