Vashista Bharadwaj K, Sai Chaitanya D, Pujith K, Maneesha Y, Manoj Sindhwani, Shippu Sachdeva, Manoj Singh Adhikari
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引用次数: 0
摘要
如今,与有线通信相比,无线通信的使用已变得非常广泛。固定电话被移动电话取代,无线网络被 DAS 取代。从 1970 年到 1980 年代,无线通信不断发展,无线通信使用射频波进行通信,这就是射频通信。随着对数据传输速率的要求越来越高,新技术因其范围、成本和可用性而在无引导媒介中不断发展。在这一演变过程中,首先出现的是光纤,然后是射频无线或电磁无线技术。后来,研究人员又发现了光通信。如今,光通信正面临着许多挑战和考验。光通信是指利用光线或光谱进行的通信,可以实现高速、远距离和安全的数据传输。实现这种通信的主要挑战是大气湍流。尽管已经进行了大量实验,但问题仍然在于如何检测大气条件,并根据大气湍流情况实现通信。本文将讨论几种检测大气湍流的技术。
Detection of atmospheric turbulence parameters in free space optical communication
These days usage of wireless communication has become vast compared to wired communication. The landline is replaced with a mobile, wi-fi with DAS. From the era of 1970 to the 1980s, wireless communication has evolved and wireless communication uses RF waves to communicate which is called RF communication. As the demand for the speed of data rate, the new technology is evolving in the unguided medium due to its range, cost, and availability. In this evolution, it first came with optical fiber and after RF wireless or electromagnetic wireless technologies. Later, researchers have been found optical communication. In present days it is facing a lot of challenges and trials. Optical communication means communication using the light ray or light spectrum which can achieve great speed and long distance with secure data transfer. The major challenge to achieve this communication is atmospheric turbulence. Although lots of experiments have been done still the problem is the detection of atmospheric conditions and making communication possible according to atmospheric turbulence. In this paper, we are going to discuss a few techniques to detect atmospheric turbulence.
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