Ming-Hua Cheng scite author profile

Ming-Hua Cheng

5Publications

15Citation Statements Received

69Citation Statements Given

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Affiliations

Tzu Hui Institute of Technology, National Kaohsiung University of Applied Sciences, National University of Tainan

Publications

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Artificial Intelligence Enabled Routing in Software Defined Networking

Hwang²,

Hwang³

et al. 2020

Applied Sciences

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Software defined networking (SDN) is an emerging networking architecture that separates the control plane from the data plane and moves network management to a central point, called the controller. The controller is responsible for preparing the flow tables of each switch in the data plane. Although dynamic routing can perform rerouting in case of congestion by periodically monitoring the status of each data flow, problems concerning a suitable monitoring period duration and lack of learning ability from past experiences to avoid similar but ineffective route decisions remain unsolved. This paper presents an artificial intelligence enabled routing (AIER) mechanism with congestion avoidance in SDN, which can not only alleviate the impact of monitoring periods with dynamic routing, but also provide learning ability and superior route decisions by introducing artificial intelligence (AI) technology. We evaluate the performance of the proposed AIER mechanism on the Mininet simulator by installing three additional modules, namely, topology discovery, monitoring period, and an artificial neural network, in the control plane. The effectiveness and superiority of our proposed AIER mechanism are demonstrated by performance metrics, including average throughput, packet loss ratio, and packet delay versus data rate for different monitoring periods in the system.

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Adaptive Handover Decision Using Fuzzy Logic for 5G Ultra-Dense Networks

Hwang

Cheng

et al. 2022

Electronics

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With the explosive increase in traffic volume in fifth-generation (5G) mobile wireless networks, an ultra-dense network (UDN) architecture, composed of highly concentrated millimeter-wave base stations within the fourth-generation (4G) system, has been developed. User equipment (UE) may encounter more frequent handover opportunities when moving in a UDN. Conventional handover schemes are too simple to adapt to the diverse handover scenarios encountered in 5G UDNs because they consider only UE signal strength. Unnecessary handovers aggravate the ping-pong effect and degrade the quality of service of cellular networks. Fuzzy logic (FL) is considered the best technique to unravel the handover problem in a high-density scenario of small cells for 4G/5G networks. In this paper, we propose an FL-based handover scheme to dynamically adjust the values of two handover parameters, namely handover margin (HOM) and time to trigger (TTT), with respect to each UE. The proposed scheme, abbreviated as FLDHDT, has dynamic adjustment of TTT in addition to HOM by using the signal to interference plus noise ratio and horizontal moving speed of the UE as inputs to the FL controller. To demonstrate the effectiveness and superiority of FLDHDT, we perform simulations using the well-known ns-3 simulator. The performance measures include the number of handovers, overall system throughput, and ping-pong ratio. The simulation results demonstrate that FLDHDT improves the handover performance of 5G UDNs in terms of the number of handovers, ping-pong ratio, and overall system throughput compared to a conventional handover scheme, namely Event A3, and an FL-based handover scheme with dynamic adjustment of only HOM.

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A Scheme to Create Simulated Test Items for Facilitating the Assessment in Web Security Subject

Cheng

Wang

et al. 2019

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A Collision Rate-Based Backoff Algorithm for Wireless Home Area Networks

Lin

Tsai

Hwang³

et al. 2020

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An adaptive state backoff algorithm for wireless mesh networks

Cheng

Chun-I

Hwang

et al. 2018

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Ming-Hua Cheng

Artificial Intelligence Enabled Routing in Software Defined Networking

Adaptive Handover Decision Using Fuzzy Logic for 5G Ultra-Dense Networks

A Scheme to Create Simulated Test Items for Facilitating the Assessment in Web Security Subject

A Collision Rate-Based Backoff Algorithm for Wireless Home Area Networks

An adaptive state backoff algorithm for wireless mesh networks

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