A Novel Dynamic Bandwidth Allocation Design for 100G Coherent Passive Optical Network

TL;DR

This paper introduces a novel Hybrid-Switch Dynamic Bandwidth Allocation algorithm designed for 100G coherent PONs, addressing misalignment issues and improving bandwidth efficiency for high-speed, latency-sensitive optical networks.

Contribution

It presents the first solution to DBA misalignment in coherent PONs and proposes an adaptive scheme for 100G networks with up to 512 users.

Findings

Hybrid-Switch DBA improves bandwidth utilization.

Adaptive switching responds effectively to real-time traffic.

Enhanced support for latency-sensitive services.

Abstract

With the rapid advancements in coherent Passive Optical Network (PON) technologies featuring 100G and higher data rates, this paper addresses the urgent requirement for sophisticated simulation and MAC layer development within the domain of coherent Time Division Multiplexing (TDM) PON and coherent Time and Frequency Division Multiplexing (TFDM) PON networks. The ever-growing demand for latency-sensitive services and expanding user populations in next-generation 100G and beyond coherent PONs, underscores the crucial need for low-latency bandwidth management and efficient Dynamic Bandwidth Allocation (DBA) mechanisms. In this paper, we present a pioneering analysis of two established DBAs from the perspective of temporal misalignments. Subsequently, a novel DBA algorithm tailored for coherent PONs featuring 100 Gbps data rate and up to 512 end-users is introduced, named the Hybrid-Switch DBA. This innovative approach allows for adaptive switching of the DBA scheme in response to real-time traffic conditions. To the best of our knowledge, this paper represents the first attempt to address the misalignment problem of DBA and proposes a novel DBA solution for both TDM- and TFDM-based coherent PON networks. This research significantly contributes to the development of coherent TDM PON and coherent TFDM PON networks by enhancing the efficiency of bandwidth allocation and addressing the challenges associated with misalignments in DBA mechanisms. As optical access networks continue to evolve to meet the ever-increasing demands of modern communication services, the Hybrid-Switch DBA algorithm presented in this paper offers a promising solution for optimizing network performance and accommodating latency-sensitive applications.