Title :
Recent Progress on C-RAN Centralization and Cloudification
Author :
Chih-Lin I ; Jinri Huang ; Ran Duan ; Chunfeng Cui ; Jiang, Jesse Xiaogen ; Lei Li
Author_Institution :
Green Commun. Res. Center, China Mobile Res. Inst., Beijing, China
Abstract :
This paper presents the latest progress on cloud RAN (C-RAN) in the areas of centralization and virtualization. A C-RAN system centralizes the baseband processing resources into a pool and virtualizes soft base-band units on demand. The major challenges for C-RAN including front-haul and virtualization are analyzed with potential solutions proposed. Extensive field trials verify the viability of various front-haul solutions, including common public radio interface compression, single fiber bidirection and wavelength-division multiplexing. In addition, C-RANs facilitation of coordinated multipoint (CoMP) implementation is demonstrated with 50%-100% uplink CoMP gain observed in field trials. Finally, a test bed is established based on general purpose platform with assisted accelerators. It is demonstrated that this test bed can support multi-RAT, i.e., Time-Division Duplexing Long Term Evolution, Frequency-Division Duplexing Long Term Evolution, and Global System for Mobile Communications efficiently and presents similar performance to traditional systems.
Keywords :
Long Term Evolution; cellular radio; cloud computing; frequency division multiplexing; radio access networks; telecommunication computing; time division multiplexing; virtualisation; wavelength division multiplexing; C-RAN centralization; C-RAN facilitation; C-RAN system; CoMP implementation; baseband processing resources; cloudification; common public radio interface compression; coordinated multipoint implementation; field trials; frequency-division duplexing Long Term Evolution; front-haul; front-haul solutions; general purpose platform; global system for mobile communications; multiRAT; single-fiber bidirection; soft base-band units; time-division duplexing Long Term Evolution; uplink CoMP gain; virtualization; wavelength-division multiplexing; Mobile communication; Optical fiber devices; Optical fiber networks; Optical fiber testing; Radio access networks; Virtualization; Wavelength division multiplexing; C-RAN; CoMP; cloud; front-haul; virtualization;
Journal_Title :
Access, IEEE
DOI :
10.1109/ACCESS.2014.2351411
