Add to ORKGBased on Shannon\u27s Theory, positive secrecy capacity could support secure communication. The LEO satellite system is proposed for internet service. The issues of privacy and security become progressively important in internet applications. Conventionally, the security scheme is applied to the highernetwork layer. However, the fundamental ability of the physical layer to provide secure transmission. This work leads the encryption to code and to analyze the security rate in the LEO system. The coding scheme with memory aided could provide a positive secrecy capacity of the system
The objective of this chapter is to study practical coding techniques to provide security to wireles...
Abstract — Satellite communication is one of the most popular next generation communication technolo...
In this paper, we investigate the application of physical-layer security coding for next generation ...
Low Earth Orbit (LEO) satellites undergo a period of rapid development driven by ever-increasing use...
Today’s aeronautical communications increasingly rely on wireless communication to exchange informat...
Wireless broadcast allows widespread and easy information transfer. However, it may expose the infor...
In satellite communication systems, satellite power and processing capacities are limited, which mea...
6G will revolutionize the world with a large amount of bandwidth, high data rates, and extensive cov...
Physical layer security (PLS) draws on information theory to characterize the fundamental ability of...
This paper addresses issues relating to the generation of secure encryption keys for use in inter-sa...
This paper explores effective algorithms for managing the distributed processing and secure data tra...
Satellites are expected to play an essential role in bridging the “digital divide”; satellite networ...
This thesis explores some of the legal implications of communication satellite constellations in Low...
A growing trend in satellite development includes shortening the development lifecycle for hardware ...
Currently, the forecast for the European market for IoT is a yearly 19.8% increase up to reach $241 ...
The objective of this chapter is to study practical coding techniques to provide security to wireles...
Abstract — Satellite communication is one of the most popular next generation communication technolo...
In this paper, we investigate the application of physical-layer security coding for next generation ...
Low Earth Orbit (LEO) satellites undergo a period of rapid development driven by ever-increasing use...
Today’s aeronautical communications increasingly rely on wireless communication to exchange informat...
Wireless broadcast allows widespread and easy information transfer. However, it may expose the infor...
In satellite communication systems, satellite power and processing capacities are limited, which mea...
6G will revolutionize the world with a large amount of bandwidth, high data rates, and extensive cov...
Physical layer security (PLS) draws on information theory to characterize the fundamental ability of...
This paper addresses issues relating to the generation of secure encryption keys for use in inter-sa...
This paper explores effective algorithms for managing the distributed processing and secure data tra...
Satellites are expected to play an essential role in bridging the “digital divide”; satellite networ...
This thesis explores some of the legal implications of communication satellite constellations in Low...
A growing trend in satellite development includes shortening the development lifecycle for hardware ...
Currently, the forecast for the European market for IoT is a yearly 19.8% increase up to reach $241 ...
The objective of this chapter is to study practical coding techniques to provide security to wireles...
Abstract — Satellite communication is one of the most popular next generation communication technolo...
In this paper, we investigate the application of physical-layer security coding for next generation ...