Andere Kunden interessierten sich auch für
![MIMO Relaying Systems under Flat Fading Rayleigh Channels]( "MIMO Relaying Systems under Flat Fading Rayleigh Channels")
MIMO Relaying Systems under Flat Fading Rayleigh Channels48,99 €![Secrecy Performance of the Wiretap Channel]( "Secrecy Performance of the Wiretap Channel")
Secrecy Performance of the Wiretap Channel29,99 €![A New Erlang Capacity Estimation Algorithm Based on CCI Probability]( "A New Erlang Capacity Estimation Algorithm Based on CCI Probability")
A New Erlang Capacity Estimation Algorithm Based on CCI Probability55,99 €![Diversity Combining for Digital Signals in Wireless Fading Channels]( "Diversity Combining for Digital Signals in Wireless Fading Channels")
Diversity Combining for Digital Signals in Wireless Fading Channels51,99 €![An Outage Probability in Cooperative MIMO Under Slow Fading Channel]( "An Outage Probability in Cooperative MIMO Under Slow Fading Channel")
An Outage Probability in Cooperative MIMO Under Slow Fading Channel23,99 €![Decode and Forward Relaying with Keyhole in Nakagami-m Fading Channels]( "Decode and Forward Relaying with Keyhole in Nakagami-m Fading Channels")
Decode and Forward Relaying with Keyhole in Nakagami-m Fading Channels30,99 €![Adaptive Rate Coding for A-CDMA Systems over Slowly Fading Channels]( "Adaptive Rate Coding for A-CDMA Systems over Slowly Fading Channels")
Adaptive Rate Coding for A-CDMA Systems over Slowly Fading Channels38,99 €
Wireless communication plays an important role in the surveillance and control systems deployed in the marine environment. Currently, there is an increasing concern with the information security in various marine projects including offshore hurricane monitoring, offshore earthquake surveillance, offshore wind farms, etc. In the marine environment, usually there exists a line-of-sight (LOS) between the transmitter and the receiver, thus the RF fading can be characterized by the Rician distribution. In the present work, we conduct an analysis on the security of various Fading channels in the context information theoretic secrecy (ITS). Communication security is critical in the marine environment as information maybe transmitted over large open areas like high seas. In this work, an analysis will be conducted on the probability of secrecy capacity for wireless communications over various fading channels. In particular, a closed form expression for the probability of strictly positive secrecy capacity is derived. The result is applicable to the scenarios of Rayleigh/ Rayleigh, Rician/ Rayleigh, Rayleigh.