DocumentCode
3574122
Title
Compressed transport of baseband signals in cloud radio access networks
Author
Ding Peng-ren ; Zhao Can
Author_Institution
Key Lab. of Universal Wireless Commun., Beijing Univ. of Posts & Telecommun., Beijing, China
fYear
2014
Firstpage
484
Lastpage
489
Abstract
Cloud radio access network (C-RAN) is a next generation wireless access network architecture. In this architecture, common public radio interface (CPRI) links are widely used to transmit baseband signals. Currently, one of the great technical challenges for the C-RAN architecture is the soaring CPRI bandwidth required for data transmission between remote radio unit (RRU) and baseband unit (BBU). In this paper, we propose a novel compression method that exploits the temporal and spectral features of baseband signals, which can achieve high compression ratio (3.56x) and low latency (3.4usec) with limited impact on end-to-end communication performance (error vector magnitude <;1.89%). We use a combination of reducing signal sampling, digital automatic gain control, Lloyd-Max quantization and cyclic prefix replacement to compress LTE uplink and downlink signals. Upon verifying the feasibility and validity of the algorithm, we implement the design with field programmable gate array (FPGA) resources.
Keywords
Long Term Evolution; automatic gain control; bandwidth compression; cloud computing; data communication; field programmable gate arrays; quantisation (signal); radio access networks; radio links; signal sampling; telecommunication computing; BBU; C-RAN architecture; CPRI link bandwidth; FPGA resources; LTE downlink signal compression; LTE uplink signal compression; Lloyd-Max quantization; RRU; baseband signal transmission; baseband unit; cloud radio access networks; common public radio interface links; cyclic prefix replacement; data transmission; digital automatic gain control; end-to-end communication performance; field programmable gate array resources; high compression ratio; low latency; next generation wireless access network architecture; remote radio unit; signal sampling reduction; spectral features; temporal features; transport compression method; Baseband; Downlink; OFDM; Quantization (signal); Signal sampling; Vectors; Wireless communication; C-RAN; CPRI interface; EVM; baseband signals; compression algorithm;
fLanguage
English
Publisher
ieee
Conference_Titel
Communications and Networking in China (CHINACOM), 2014 9th International Conference on
Type
conf
DOI
10.1109/CHINACOM.2014.7054343
Filename
7054343
Link To Document