Dual-weight maximal clique scheduling method based on elastic optical multicast switching node structure based on shared spectrum converter
A technology for sharing spectrum and switching nodes, which is applied in the field of dual-weight maximum group scheduling of elastic optical multicast switching node structure, which can solve problems such as complex scheduling schemes, reduce packet loss rate, improve utilization rate, and reduce cost Effect
Active Publication Date: 2020-01-17
CHONGQING UNIV OF POSTS & TELECOMM
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However, the node structure and scheduling algorithm based on the fixed wavelength grid in the WDM optical network are no longer applicable to the elastic optical network. Therefore, it is necessary to design a new switching node structure and scheduling algorithm suitable for the elastic optical network.
Different from the allocation and scheduling of fixed wavelengths in WDM optical networks, elastic optical networks need to consider that the size of the spectrum occupied by data packets is not fixed and the continuity of the spectrum, so the scheduling scheme will be more flexible and complex
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[0034] The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.
[0035] figure 1 Shown is a structural diagram of a multicast switching node based on a shared spectrum converter suitable for elastic optical networks, including N input / output ports, N 1×M bandwidth-variable wavelength selective switches (BV-WSS), N× M optical splitters, N×M×S optical switches, 2 bandwidth variable optical cross-connects (BV-OXC), R limited-range spectrum converters (LRSC), H full-range spectrum converters (FRSC) and N couplers. Among them, LRSC adopts the configuration mode of feedback sharing, and FRSC adopts the configuration mode of output sharing.
[0036] The working principle of the multicast switching node structure based on shared spectrum converters suitable for elastic optical networks is as follows: first, data packets arrive at the input end of the switching node structure, and the arriving data packets occu...
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The invention relates to a dual-weight maximum-clique scheduling method for an elastic optical multicast switching node structure based on a shared frequency spectrum converter. When an optical multicast fails to directly schedule an output port, the confliction in an optical frequency spectrum domain of the conflicted optical multicast is firstly solved by virtue of an LRSC (Limited Range Spectrum Converter), a conflict auxiliary graph of a frequency spectrum occupied by each data packet is established by virtue of a dual-weight maximum-clique scheduling algorithm, the frequency slot number occupied by the data packet and the number of the used LRSCs are taken as two weights, and a scheduling scheme in which the number of the used LRSCs is minimum when the total frequency slot number of output data packets are maximum is selected by virtue of a graph coloring algorithm, so that the utilization rate of the frequency spectrum converter is increased, and the packet loss probability and the node structure cost are reduced. If optical multicasts are still in a confliction state after the LRSCs are used, the confliction is solved by virtue of a small amount of FRSCs (Full Range Spectrum Converters), and frequency spectrums of conflicted data packets can be converted to any one section of idle frequency spectrum in an optical fiber frequency spectrum range by virtue of the FRSCs, so that the capability of solving the confliction of a switching node is further improved, and the packet loss probability is further reduced.
Description
technical field [0001] The invention belongs to the technical field of optical fiber communication, and relates to a dual-weight maximum group scheduling method based on an elastic optical multicast switching node structure of a shared spectrum converter. Background technique [0002] With the ever-increasing demand for high-bandwidth services such as multimedia and cloud computing, Internet traffic has shown tremendous growth. A traditional wavelength division multiplexing (Wavelength Division Multiplexing, WDM) network is limited by a fixed wavelength grid, resulting in a waste of bandwidth resources. Compared with the WDM network, the elastic optical network has the advantages of high spectrum utilization rate and flexible spectrum allocation, and has become a next-generation optical network with great potential. [0003] Multicast technology can realize point-to-multipoint, multipoint-to-single-point, multipoint-to-multipoint high-speed data transmission in the network,...
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IPC IPC(8): H04Q11/00
CPCH04Q11/0003H04Q11/0005H04Q11/0062H04Q2011/0047H04Q2011/005
Inventor 刘焕淋彭涵陈勇李元黄俊
Owner CHONGQING UNIV OF POSTS & TELECOMM