Abstract
Orthogonal Frequency Division Multiplexing Access Passive Optical Networks (OFDMA-PONs), a solution for the next-generation optical access network, allows multiple optical network units (ONUs) to dynamically share subcarriers (SCs) to support efficient bandwidth allocation. In uplink transmission, multiple ONUs can share orthogonal low bit rate SCs to transmit data at different time slots (TSs) during the transmission cycle. In this paper, the dynamic subcarrier allocation (DSA) scheme based on deep reinforcement learning (DRL) is proposed for various ONU bandwidth requests. The novel scheme jointly allocates time slots, subcarriers, and modulation formats in a dynamic and flexible manner. The ONU can save transmit power by using a lower order modulation format while meeting the delay requirement. The simulation part demonstrates how the proposed DRL-based DSA scheme can be adapted to various situations, including 1) variation in the size of ONU bandwidth requests, and 2) variation in the weight of different indicators. The extensive simulation results show that, for the first time, the proposed DRL-based DSA algorithm achieves optimal traffic latency with substantial power saving, compared with the traditional two-dimensional DSA algorithms.
Highlights
INTRODUCTION1With the ever-increasing demand for bandwidth from various types of multimedia services, e.g., high definition video streaming, edge computing, costeffective passive optical networks (PONs) have become mature technologies for broadband access and have been widely deployed worldwide [1]
Orthogonal Frequency Division Multiplexing Access Passive Optical Networks (OFDMA-passive optical networks (PONs)), a solution for the next-generation optical access network, allows multiple optical network units (ONUs) to dynamically share subcarriers (SCs) to support efficient bandwidth allocation
We focus on the upstream (US) transmission of the OFDMA-PON system, where the total US bandwidth is divided into the many orthogonal SCs, a part of which can be assigned to a different ONU in different time slots (TSs)
Summary
With the ever-increasing demand for bandwidth from various types of multimedia services, e.g., high definition video streaming, edge computing, costeffective passive optical networks (PONs) have become mature technologies for broadband access and have been widely deployed worldwide [1]. The orthogonal frequency division multiple access passive optical network (OFDMA-PON) that enables the sharing of sub-wavelength resources in the frequency domain is proposed to address the effective bandwidth allocation [1, 3, 5, 8,9,10,11]. The allocated resources in OFDM-PON include the subcarriers, the time slots and the modulation formats and our goal aims to minimize the power consumption and the delay of ONU requests, simultaneously. The authors in [23] proposed a distance-adaptive bandwidth allocation scheme to realize low-cost high-capacity long-range OFDMA-PONs. In [24], a number of sub-bands are grouped together as a band group (BP) and multiple ONUs share the BP by time division mode to realize an energy-efficient time division multiple band allocation passive optical network (TDMBA-PON).
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
