WLAN interference self‐optimization using som neural networks

Hu, Yao; Yang, Hao; Zhang, Anqi; Guo, Yiru

doi:10.1002/cpe.3913

Cited by 6 publications

(3 citation statements)

References 19 publications

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“…It considers connectivity, collaborative analysis reports and warning systems, securing globalised network view, accessibility between collaborative organisations, congestion avoidance and control, and limiting the impact of resources used for processing. Yao, et al (2017), we use simulation to generate our initial results and conduct evaluation, which ensures we do not negatively impede the functionality of a deployed network, while evaluating the framework and implemented algorithms capabilities. The framework also provides an inexpensive simulation model to conduct experiments within, allowing us to study the behaviour of the systems and techniques.…”

Section: Applying the Methods: Simulation Resultsmentioning

confidence: 99%

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Identifying and mitigating security risks for secure and robust NGI networks

Lever

Kifayat

2020

Sustainable Cities and Society

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Section: Applying the Methods: Simulation Resultsmentioning

confidence: 99%

“…Proposing a Mixed Integer Quadratic Program optimisation technique for each of the identified challenges (optimisation of frequency channel assignments, tracking area codes, physical cell identifiers, and long-term evolution). Whereas, Yao, et al (2017) only simulate a small sized network graph.…”

Section: Related Workmentioning

confidence: 99%

Identifying and mitigating security risks for secure and robust NGI networks

Lever

Kifayat

2020

Sustainable Cities and Society

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“…A novel area‐based multiple group key management scheme is proposed to facilitate the movement of mobile users in wireless communication networks with minimized communication overhead. On the basis of a self‐organizing feature map neural network model, Yao et al present wireless local area network interference self‐optimization method to quickly locate the fault access point and optimize the network performance to smoothen the communication process of people. Neural networks are also used in the work of Jin et al for online recognition of glass defects.…”

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confidence: 99%

Internet of People

2016

Concurrency and Computation

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Internet of People (IoP) refers to digital connectivity of people through the Internet infrastructure forming a network of collective intelligence and stimulating interactive communication among people. The purpose of the special issue is to collate a selection of representative articles that were primarily presented at the IEEE International Conference on Internet of People (IoP 2015) on August 10 to 14, 2015, in Beijing, China. The special issue was also made open to public submissions for a wide inclusion.The scope of the special issue is broad and represents a multidisciplinary nature of IoP. It covers topics from the network enabling technologies at the physical layer to services at the application layer. It is reported that around 40% of the world population has an Internet connection today, and the number of Internet users reached 3 billion in 2014. The sheer size of the Internet population has led to big data challenges of volume, velocity, variety, and veracity of the digital data generated. For this purpose, this special issue also includes a few articles on high performance computing techniques that can speed up the computation process in analyzing big volumes of data.Mobile and wireless networks facilitate the communication among people. In the work of Huang et al.[1] they present a multiple-user partner selection algorithm to improve the overall secrecy rate of the network. Zhong et al. Crowdsourcing enables IoP by soliciting contributions from a large group of people connected by the Internet. Wang et al.[5] conduct a survey on mobile crowdsourcing from the aspects of realtime and location-sensitive crowdsourced tasks. Related research challenges and possible solutions are discussed. Shao et al.[6] use crowdsensing in vehicular networks to predict the traffic condition in intelligent transportation systems. This solves the problem of traditional approaches being inefficiency ineffectiveness in data uploading and usage. Guo et al. [7] extract information from external-related attributes and improve latent Dirichlet allocation to build a topic mining model to facilitate services in telephone call centers. Knowledge diffusion as a component of crowdsourcing also plays an increasing role in modern communication networks and social networks. Zhang et al.[8] study the topological structure and research a new knowledge diffusion model taking into account both learning and forgetting attributes. The results from this research reveal that the social networks with a high degree of heterogeneity well suit for knowledge diffusion. In a mobile environment in IoP, network latency would have a significant impact on the communication of mobile services. For this purpose, Ding et al. [9] target at service composition so that mobile services can be optimized and provisioned to users with low communication latency. In the work of Gopalakrishna et al.[10] they assess relevance in cyber-physical systems. For this purpose, a new metric called relevance score is proposed for evaluation of a number of machine learning t...

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Intelligent Network Control

Jiang

Qian

2019

Wireless Networks

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WLAN interference self‐optimization using som neural networks

Cited by 6 publications

References 19 publications

Identifying and mitigating security risks for secure and robust NGI networks

Identifying and mitigating security risks for secure and robust NGI networks

Internet of People

Intelligent Network Control

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