Transmission of Big Data via LEO/Terrestrial Laser Links: A Revolution for Satellite Applications

Abstract

This topic describes a revolutionary approach to transmitting large volumes of data in satellite applications via ground-based laser intercommunication links (LIGL) with satellites in low earth orbit (LEO). In this innovative system, high-capacity data transfers are achieved using laser technology, guaranteeing fast, efficient communication between ground stations and LEO satellites. By harnessing the power of lasers, the system facilitates the seamless transmission of Big Data, overcoming the limitations posed by traditional radio frequency methods. The technology exploits precise laser beams to establish reliable intercommunication links, enabling the rapid exchange of large datasets. This approach not only significantly improves data transmission rates, but also guarantees low latency and high bandwidth capabilities, essential for modern applications requiring real-time data processing and analysis. In addition, the use of terrestrial laser intercommunication links offers enhanced security and reduced vulnerability to interference, making it an ideal solution for secure, mission-critical satellite communications. The abstract highlights the potential of this advanced technology to revolutionize satellite applications, particularly in areas requiring rapid data dissemination, such as Earth observation, scientific research and disaster management.