Litcius/Paper detail

Fair Resource Allocation Based on User Satisfaction in Multi-OLT Virtual Passive Optical Network

Nianfei Zhan, Chaoqin Gan, Jianqiang Hui, Yaqin Guo

2020IEEE Access13 citationsDOIOpen Access PDF

Abstract

In this paper, a fair resource allocation mechanism based on user satisfaction in multiple optical line terminal (multi-OLT) virtual passive optical network (VPON) is proposed. By introducing user satisfaction functions, the satisfaction of users can be quantified. By presenting multi-OLT VPON in metro-access optical network (MAON), different priority services can be effectively handled separately. Based on user satisfaction, a fair resource allocation mechanism called double fair dynamic bandwidth allocation scheme (DFDBAS) is proposed. DFDBAS is a combination of two algorithms: wavelength fair allocation (WFA) algorithm and timeslot fair allocation (TFA) algorithm. In TFA algorithm, max-min fairness (MMF) algorithm is presented to allocate bandwidth for high priority service and Lagrange multiplier method is implemented to allocate bandwidth for low priority service. By implementing DFDBAS, not only user delay satisfaction can be improved, but also user bandwidth satisfaction can increase. By the simulation and analysis, the effectiveness of the proposed algorithms is demonstrated. Compared with modified limited service (LS) algorithm, DFDBAS makes both delay satisfaction and bandwidth satisfaction increase by at least 30% when the load is greater than 1.

Topics & Concepts

Computer scienceDynamic bandwidth allocationBandwidth allocationResource allocationBandwidth (computing)Computer networkQuality of serviceUser satisfactionResource management (computing)Max-min fairnessLagrange multiplierPassive optical networkScheme (mathematics)AlgorithmDistributed computingMathematical optimizationWavelength-division multiplexingWavelengthHuman–computer interactionMathematical analysisMathematicsPhysicsOptoelectronicsAdvanced Photonic Communication SystemsOptical Network TechnologiesAdvanced Optical Network Technologies