Your search keyword '"Shuqing Bu"' showing total 4 results

1. On the Design of Computation Offloading in Fog Radio Access Networks

Author

Zhongyuan Zhao, Tiezhu Zhao, Mugen Peng, Shuqing Bu, Zhenping Yin, Zhiguo Ding, and Tony Q. S. Quek

Subjects

Optimization problem, Computer Networks and Communications, business.industry, Computer science, Distributed computing, Aerospace Engineering, 020302 automobile design & engineering, Cloud computing, 02 engineering and technology, Energy consumption, 0203 mechanical engineering, Automotive Engineering, Computation offloading, Resource management, Electrical and Electronic Engineering, business, Edge computing

Abstract

Based on a hierarchical cloud-fog computing-enabled paradigm, fog radio access networks (F-RANs) can provide abundant resource to support the future mobile artificial intelligent services. However, due to the differences of computation and communication capabilities at the cloud computing center, the fog computing based access points (F-APs), and the user devices, it is challenging to propose efficient computation offloading strategies to fully explore the potential of F-RANs. In this paper, we study the design of computation offloading in F-RANs to minimize the total cost with respect to the energy consumption and the offloading latency. In particular, a joint optimization problem is formulated to optimize the offloading decision, the computation and the radio resources allocation. To solve this non-linear and non-convex problem, an iterative algorithm is designed, which can be proved to converge a stationary optimal solution with polynomial computational complexity. Finally, the simulation results are provided to show the performance gains of our proposed joint optimization algorithm.

Published

2019

2. Resource Allocation for Computation Offloading in Fog Radio Access Networks

Author

Zhenping Yin, Tiezhu Zhao, and Shuqing Bu

Subjects

Radio access network, Optimization problem, Computer science, Wireless network, business.industry, Distributed computing, Cloud computing, Energy consumption, Transmitter power output, Server, Computation offloading, Wireless, Resource allocation, Resource management, business

Abstract

Fog radio access network (F-RAN) is a promising paradigm for the future wireless networks, it shows a trend of integrating communication and computation. In this paper, we study resource allocation for computation offloading in F-RANs, in which the computation and radio resources are considered. To minimize the total cost with respect to the energy consumption and the offloading latency, a joint optimization problem is formulated to optimize the offloading decision, the CPU-cycle frequency and the transmit power control. To solve this non-linear and non-convex problem, we propose an iterative algorithm, which can be proved to converge a stationary optimal solution. Finally, we provide the simulation results to show the convergence performance and the total cost performance gains of our proposed joint optimization algorithm.

Published

2018

3. Performance Analysis of Outage and Average Sum Rate of Sparse Code Division Multiple Access in Fog Radio Access Networks

Author

Zhendong Mao, Yi Gu, Mingfeng Xu, Yuan Ai, and Shuqing Bu

Subjects

Transmission (telecommunications), Computer engineering, Computer science, Code division multiple access, Reliability (computer networking), Spectral efficiency, Bottleneck, 5G, Subcarrier

Abstract

Fog radio access networks (F-RAN) is used to meet high requirements of the fifth-generation (5G) mobile communication. With scale of terminals expanded, frequency spectrum becomes a bottleneck of developing F-RANs, and traditional orthogonal multiple access (OMA) is not highly effective on resource utilization. To improve spectrum efficiency, sparse code division multiple access (SCMA) is presented as a promising technique. In this paper, the performance of a SCMA-based scheme in F-RANs is evaluated. In particular, a lower bound of the average outage probability of a typical user is provided based on stochastic geometry, which can give some insights on how to improve the transmission reliability of SCMA. Meanwhile, a lower bound of capacity on a subcarrier is derived. Simulation results are provided to validate the accuracy of analysis and show the performance gain of SCMA compared with OMA.

Published

2018

4. Primary Synchronization Signal Design for New Radio Technique in 5G Communication System

Author

Shuqing Bu, Yi Gu, Yuexia He, and Zhendong Mao

Subjects

Offset (computer science), Computer science, Matched filter, 05 social sciences, 050801 communication & media studies, 020206 networking & telecommunications, 02 engineering and technology, Residual, 0508 media and communications, User equipment, Frequency domain, Carrier frequency offset, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Frequency offset, Time domain

Abstract

System synchronization between the user equipment (UE) and the base station (eNodeB) is a fundamental physical layer procedure in the cellular system and performed by synchronization signal. New Radio (NR) synchronization signal is expected to have the wider band reserved, which enables the use of the longer sequence than that in Long Term Evolution (LTE). This paper simulates the downlink (DL) initial synchronization procedure for NR in 5G and evaluates the NR primary synchronization signal (NR-PSS) design with various lengths. To accomplish the DL initial synchronization at the UE, the NR-PSS is firstly detected in the time domain using a matched filter, and then the carrier frequency offset (CFO) is the sum of the integer frequency offset (IFO) and the sum of the fractional frequency offset (FFO). After compensating the CFO of the received signal, we detect the NR second synchronization signal (NR-SSS) in the frequency domain. To evaluate the NR-PSS design with various lengths, the performance of the residual timing offset and residual frequency offset is considered. The simulation results show that the performance of the residual timing offset with the longer sequences is better and the length of the NR-PSS has no impact on the performance of the residual frequency offset. Thus we propose longer sequences in the NR-PSS design when the performance of the residual timing offset and the residual frequency offset is only considered.

Published

2017