Mean Field-Based Dynamic Backoff Optimization for MIMO-Enabled Grant-Free NOMA inMassive IoT Networks  

作　　者：Haibo Wang Hongwei Gao Pai Jiang Matthieu De Mari Panzer Gu Yinsheng Liu 

机构地区：[1]School of Electronic and Information Engineering,Beijing Jiaotong University,Beijing,100044,China [2]Department of Information Systems Technology and Design Pillar,Singapore University of Technology and Design,Singapore,487372,Singapore [3]Nokia Group,Alcatel Lucent Shanghai Bell,Shanghai,200120,China

出　　处：《Journal on Internet of Things》2024年第1期17-41,共25页

基　　金：supported by the National Natural Science Foundation of China underGrant 62371036,supported authors Haibo Wang,Hongwei Gao and Pai Jiang.

摘　　要：In the 6G Internet of Things(IoT)paradigm,unprecedented challenges will be raised to provide massive connectivity,ultra-low latency,and energy efficiency for ultra-dense IoT devices.To address these challenges,we explore the non-orthogonal multiple access(NOMA)based grant-free random access(GFRA)schemes in the cellular uplink to support massive IoT devices with high spectrum efficiency and low access latency.In particular,we focus on optimizing the backoff strategy of each device when transmitting time-sensitive data samples to a multiple-input multiple-output(MIMO)-enabled base station subject to energy constraints.To cope with the dynamic varied channel and the severe uplink interference due to the uncoordinated grant-free access,we formulate the optimization problem as a multi-user non-cooperative dynamic stochastic game(MUN-DSG).To avoid dimensional disaster as the device number grows large,the optimization problem is transformed into a mean field game(MFG),and its Nash equilibrium can be achieved by solving the corresponding Hamilton-Jacobi-Bellman(HJB)and Fokker-Planck-Kolmogorov(FPK)equations.Thus,a Mean Field-based Dynamic Backoff(MFDB)scheme is proposed as the optimal GFRA solution for each device.Extensive simulation has been fulfilled to compare the proposed MFDB with contemporary random access approaches like access class barring(ACB),slotted-Additive LinksOn-lineHawaii Area(ALOHA),andminimum backoff(MB)under both static and dynamic channels,and the results proved thatMFDB can achieve the least access delay and cumulated cost during multiple transmission frames.

关 键 词：6G internet of things grant-free random access NOMA dynamic backoff mechanism mean field game 

分 类 号：TN9[电子电信—信息与通信工程]