Channel Estimation for Physical Layer Network Coding Systems [electronic resource] /
by Feifei Gao, Chengwen Xing, Gongpu Wang.
- IX, 80 p. 25 illus., 5 illus. in color. online resource.
- SpringerBriefs in Computer Science, 2191-5768 .
- SpringerBriefs in Computer Science, .
Fundamentals of Physical Layer Network Coding -- Background on Channel Estimation -- Channel Estimation for PLNC under Frequency Flat Fading Scenarios -- Channel Estimation for PLNC under Frequency Selective Fading Scenarios -- Channel Estimation for PLNC under Time-Selective Fading Scenarios -- Conclusions and Future Directions.
This SpringerBrief presents channel estimation strategies for the physical later network coding (PLNC) systems. Along with a review of PLNC architectures, this brief examines new challenges brought by the special structure of bi-directional two-hop transmissions that are different from the traditional point-to-point systems and unidirectional relay systems. The authors discuss the channel estimation strategies over typical fading scenarios, including frequency flat fading, frequency selective fading and time selective fading, as well as future research directions. Chapters explore the performance of the channel estimation strategy and optimal structure of training sequences for each scenario. Besides the analysis of channel estimation strategies, the book also points out the necessity of revisiting other signal processing issues for the PLNC system. Channel Estimation of Physical Layer Network Coding Systems is a valuable resource for researchers and professionals working in wireless communications and networks. Advanced-level students studying computer science and electrical engineering will also find the content helpful.
9783319116686
10.1007/978-3-319-11668-6 doi
Computer science. Computer organization. Coding theory. Computers. Electrical engineering. Computer Science. Coding and Information Theory. Communications Engineering, Networks. Signal, Image and Speech Processing. Information Systems and Communication Service. Computer Systems Organization and Communication Networks.