A Semantic and Knowledge-Based Approach for Handover Management

Vivas, Fulvio Yesid; Rendón, Óscar Mauricio Caicedo; Nieves, Juan Carlos

doi:10.3390/s21124234

Cited by 5 publications

(5 citation statements)

References 40 publications

(57 reference statements)

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“…Furthermore, within the ML process, defining the specific task the algorithm aims to solve is crucial. In the context of ML in cellular network HOs, tasks may include self-organizing, which automates the HO process through self-organization of connections [9]; the management of HO control parameters (HCP), where parameters are automatically configured to enhance efficiency [10]; and self-optimizing networks, which achieve automatic system optimization [6].…”

Section: Methodsmentioning

confidence: 99%

“…The SIM-Known semantic information model aids in HO decisions by considering various cellular network contexts, such as network, application, user, device, and HO. Through semantic analysis, it categorizes HOs as network-controlled, mobile-controlled, network-assisted, or mobile-assisted [10].…”

Section: Unsupervisedmentioning

confidence: 99%

“…Research efforts focus on developing algorithms for the adaptive adjustment of HCPs based on various network factors, including RSRP, SINR, and UE speed. Performance indicators such as HO failure rate (HOFR) are also considered [10].…”

Section: Ho Control Parametersmentioning

confidence: 99%

See 2 more Smart Citations

Brief Survey: Machine Learning in Handover Cellular Network

Párraga-Villamar,

Lupera-Morillo,

Grijalva

et al. 2023

Jiee 2023

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Section: Methodsmentioning

confidence: 99%

Section: Unsupervisedmentioning

confidence: 99%

See 1 more Smart Citation

Brief Survey: Machine Learning in Handover Cellular Network

Párraga-Villamar,

Lupera-Morillo,

Grijalva

et al. 2023

Jiee 2023

View full text Add to dashboard Cite

show abstract

“…In A Semantic and Knowledge‐Based Approach for Handover Management , 43 the researchers introduced a SIM‐Know method to enhance handover management by employing the semantic information model (SIM), which allows context‐awareness and multiple criteria to regulate handover decisions. Abdulkarem and Audah 44 suggested administering the base‐station handover in a 5G cellular network by using the concentric method.…”

Section: Related Workmentioning

confidence: 99%

SSHS: SDN seamless handover system among LAN access points

Abbas

Alenazi

2023

Concurrency and Computation

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SummaryIn recent years, artificial intelligence techniques, such as software‐defined networks (SDNs), machine learning classification (ML classification), and mobility models (MMs), have become vital in developing networks. Furthermore, communication methodologies, such as handover, directly affect network performance. In this paper, we propose a new system named SSHS, SDN Seamless Handover System, that combines SDN with an ML classifier to administer the network connection of mobile nodes. Through the SSHS system, the SDN will centralize the control to enable comprehensive management over the network, coupled with a decision tree (DT) classifier in the RYU controller to bring intelligence to the SDN application by enabling data analysis and prediction among mobile nodes generated by the RSSGM model. We present the SSHS model's effectiveness in providing a seamless communication handover among multiple access points (APs). The results of this study revealed that the SSHS provided a seamless handover among APs by improving the throughput by 26%, and decreasing the delay of arriving packets by 73% to standard SDN handover system.

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“…A very popular example is a Strongest Signal First method which utilizes Received Signal Strength Indication (RSSI) value to find an access device from which the mobile node receives the strongest radio signal. However, as we already mentioned, such solutions are practicable only in homogeneous networks [ 22 ] because the parameter used in comparison must be available for all access devices and impact the quality of communication in an uniform manner for them all. In heterogeneous environments, with their diverse access technologies, such a low-level parameter that could be directly used for link quality assessment and selection is most often impossible to find due to vastly different communication methods.…”

Section: Mobility Management and Link Selection Proceduresmentioning

confidence: 99%

Wireless Link Selection Methods for Maritime Communication Access Networks—A Deep Learning Approach

Hoeft

Gierłowski

Woźniak

2022

Sensors

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In recent years, we have been witnessing a growing interest in the subject of communication at sea. One of the promising solutions to enable widespread access to data transmission capabilities in coastal waters is the possibility of employing an on-shore wireless access infrastructure. However, such an infrastructure is a heterogeneous one, managed by many independent operators and utilizing a number of different communication technologies. If a moving sea vessel is to maintain a reliable communication within such a system, it needs to employ a set of network mechanisms dedicated for this purpose. In this paper, we provide a short overview of such requirements and overall characteristics of maritime communication, but our main focus is on the link selection procedure—an element of critical importance for the process of changing the device/system which the mobile vessel uses to retain communication with on-shore networks. The paper presents the concept of employing deep neural networks for the purpose of link selection. The proposed methods have been verified using propagation models dedicated to realistically represent the environment of maritime communications and compared to a number of currently popular solutions. The results of evaluation indicate a significant gain in both accuracy of predictions and reduction of the amount of test traffic which needs to be generated for measurements.

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A Semantic and Knowledge-Based Approach for Handover Management

Cited by 5 publications

References 40 publications

Brief Survey: Machine Learning in Handover Cellular Network

Brief Survey: Machine Learning in Handover Cellular Network

SSHS: SDN seamless handover system among LAN access points

Wireless Link Selection Methods for Maritime Communication Access Networks—A Deep Learning Approach

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