Shih-Yun Huang scite author profile

Recently, the 5G as the next-generation network is a popular research and discussed widely. The architecture of 5G is a heterogeneous network, and it can support more networked types, like the ultra-dense network, traditional cellular network, and Machine to Machine communication. Although the high frequency and larger bandwidth have been using in 5G, resource allocation is still a critical issue that needs to be discussed and solved. Consider the spectrum resource is limited, but almost all users hope that equipment can get a better quality of services. Therefore, how to manage the spectrum resource and allocation is a big problem. Consider the fast-growing devices and traffic in the future; hence, task scheduling for UEs to reduce energy consumption will be focused on. To solve resource allocation and minimise energy consumption, the Markov decision chain is proposed to be used to predict the channel state. The modified particle swarm optimization (MPSO) is also used in this paper to find the best task scheduling. The simulation will be used to verify the performance of the mechanism that is used and compare it with PSO and first-in-firstservice (FIFS). The result shows the method used can be scheduled for the task efficiently.This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

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Efficiently Vehicle Route Planning based on Metaheuristic Algorithm in 5G

Huang

Yang

Chao

2021

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Resource Allocation based on Genetic Algorithm for Cloud Computing

Chen

Huang

Chang

et al. 2021

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A Survey on Resource Management for Cloud Native Mobile Computing: Opportunities and Challenges

Huang

Chen

et al. 2023

Symmetry

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Fifth-generation mobile communication networks (5G)/Beyond 5G (B5G) can achieve higher data rates, more significant connectivity, and lower latency to provide various mobile computing service categories, of which enhanced mobile broadband (eMBB), massive machine-type communications (mMTC), and ultra-reliable and low latency communications (URLLC) are the three extreme cases. A symmetrically balanced mechanism must be considered in advance to fit the different requirements of such a wide variety of service categories and ensure that the limited resource capacity has been properly allocated. Therefore, a new network service architecture with higher flexibility, dispatchability, and symmetrical adaptivity is demanded. The cloud native architecture that enables service providers to build and run scalable applications/services is highly favored in such a setting, while a symmetrical resource allocation is still preserved. The microservice function in the cloud native architecture can further accelerate the development of various services in a 5G/B5G mobile wireless network. In addition, each microservice part can handle a dedicated service, making overall network management easier. There have been many research and development efforts in the recent literature on topics pertinent to cloud native, such as containerized provisioning, network slicing, and automation. However, there are still some problems and challenges ahead to be addressed. Among them, optimizing resource management for the best performance is fundamentally crucial given the challenge that the resource distribution in the cloud native architecture may need more symmetry. Thus, this paper will survey cloud native mobile computing, focusing on resource management issues of network slicing and containerization.

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Shih-Yun Huang

Virtual Machine Placement Based on Metaheuristic for IoT Cloud

An efficient spectrum scheduling mechanism using Markov decision chain for 5G mobile network

Efficiently Vehicle Route Planning based on Metaheuristic Algorithm in 5G

Resource Allocation based on Genetic Algorithm for Cloud Computing

A Survey on Resource Management for Cloud Native Mobile Computing: Opportunities and Challenges

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