Abstract
This paper proposes a hybrid ring- and tree-topology radio over fiber (RoF) transmission system with self-disconnection protection that can support the high distribution density of base stations (BSs) in a metropolitan area and strengthen the network quality of service through self-disconnection protection. The number of supportable BS in the system can be increased significantly by integrating the time- and wavelength-division multiplexing techniques and properly utilizing a new-generation single-line bidirectional add/drop multiplexer (SBOADM) into the proposed system. Moreover, when the ring–fiber link of the system is interrupted for any reason, the system operator can recover the broken connections quickly only by transforming an optical switch state at the CO end to allow the downlink optical signals to transmit along the clockwise and counterclockwise directions of the ring–fiber link simultaneously. In this case, the downstream optical signals can be delivered to each set of BS-groups through the two-way transmission characteristics of the SBOADM automatically, and the uplink optical signals, originally, from each set of BS-groups can be transmitted back to the CO end along the opposite direction of the downlink signal-routing path. In this way, the interference caused by fiber breakage can be avoided immediately, and the entire transport system can be reconnected to ensure the quality of network services. Our experimental results prove that the overall transmission performances are similar to those under normal circumstances.
Highlights
fiber Bragg gratings (FBGs) within each single-line bidirectional add/drop multiplexer (SBOADM), the 1547.4 nm light carrier is intercepted into the base stations (BSs)-Group1 when the downlink signals are transmitted to SBOADM1 through the 26-km SMF1
The remaining 1549.06, 1550.67 and 1552.19 nm optical signals are captured by SBOADM2, SBOADM3, and SBOADM4 in sequence and sent to BSs in BS-Group2, BS-Group3, and BS-Group4, respectively
The power difference between the captured light carrier and the penetrated light carrier was inconsistent after penetrating through each SBOADM
Summary
In a tree-topology network structure, the number of BSs that can be connected to each feeder fiber is limited to between 64 and 128 (2x to) [14,15]. Embedding wavelength division multiplexing (WDM) technique into time-division multiplexing (TDM) based treetopology network will be a suitable solution for overcoming this limitation [16]. If an optical multiplexing/de-multiplexing component, such as an arrayed waveguide grating (AWG), is added into the remote node (RN) of the tree-topology RoF transport systems to route different wavelengths of light carriers to different feeder fibers and significantly increase the number of BSs that can be served per feeder fiber [17,18]. The main drawbacks of such hybrid architecture are the limited scalability and flexibility of extending or reorganizing
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
