This research article presents a novel approach for achieving high-speed data transfer in satellite communication systems using power line communication (PLC) and cloud computing. The use of satellite communication systems is growing in various fields, such as remote sensing and telecommunications, which requires high-speed data transfer to support the increasing demand for data transmission. The proposed approach utilizes PLC technology to transfer data over power lines, which provides a high-speed, reliable, and cost-effective alternative to traditional wireless data transfer methods. Additionally, cloud computing is used to manage and process the large amount of data transmitted by the satellite communication system. The results of the research show that the proposed approach is able to effectively transfer data at high speeds and with low latency, making it suitable for use in satellite communication systems.
TopIntroduction
Satellite communication is a vital technology that enables the transmission of data, voice, and video signals between remote locations on Earth (Santhosh Kumar et al., 2022). With the rapid advancement of technology, there is an increasing demand for high-speed data transfer in satellite communication systems (Josphineleela, Jyothi, et al., 2023). However, traditional satellite communication systems face challenges in terms of data transfer speed and reliability. In recent years, the integration of power-line communication (PLC) and cloud computing has emerged as a promising solution to these challenges (Reddy et al., 2023).
Power-line communication (PLC) is a technology that utilizes the existing power grid infrastructure to transmit data (Asha et al., 2022). It is a cost-effective and reliable solution for data transfer, as it does not require the installation of additional communication infrastructure. On the other hand, cloud computing is a technology that enables the delivery of computing resources and services through the internet (Suman et al., 2023). It offers the benefits of scalability, flexibility, and cost-effectiveness (Balamurugan et al., 2023).
The integration of PLC and cloud computing in satellite communication systems can provide a reliable and high-speed data transfer solution (Darshan et al., 2022). This technology can potentially overcome the limitations of traditional satellite communication systems and provide a new approach for data transfer in remote and hard-to-reach areas (Merneedi et al., 2021).
Recent research has focused on the integration of PLC and cloud computing in satellite communication systems (Angalaeswari et al., 2022). A study proposed a hybrid satellite-terrestrial communication system that utilizes PLC and cloud computing to improve the data transfer speed and reliability (Sundaramk et al., 2021). The proposed system utilizes PLC to transmit data between the satellite and the ground station and cloud computing for data processing and storage (Nagajothi et al., 2022). The study found that the proposed system can significantly improve the data transfer speed and reliability compared to traditional satellite communication systems (Nagarajan et al., 2022). Another study proposed a hybrid satellite-PLC communication system for remote areas. The proposed system utilizes a satellite for long-distance communication and PLC for short-distance communication (Kanimozhi et al., 2022). The study found that the proposed system can improve the data transfer speed and reliability in remote areas where traditional satellite communication systems are not feasible. In addition, a study proposed a cloud-based satellite communication system for Internet of Things (IoT) applications (Sureshkumar et al., 2022). The proposed system utilizes cloud computing for data processing and storage and PLC for data transfer (Josphineleela, Kaliapp, et al., 2023). The study found that the proposed system can provide a reliable and high-speed data transfer solution for IoT applications in satellite communication systems (Natrayan & Kaliappan, 2023).