Performance evaluation of a priority‐based resource allocation scheme for multiclass services in IoT

AlQahtani, Salman A.

doi:10.1002/dac.4151

Cited by 2 publications

(2 citation statements)

References 20 publications

(37 reference statements)

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“…This function has a computational burden equal to (N + D + F)(M + M 2 ). According to Algorithm 1, the computational complexity of steps 2 to 5 is equivalent to 2 . This method is responsible for calculating the subchannel preference function, ranking each subchannel user, and controlling the constraints associated with each request.…”

Section: Appendix a Proof Of Propertymentioning

confidence: 99%

“…Wireless communication has been an integral part of human society in recent years and covered many aspects of human life. Today, with the exponentially increasing of the mobile devices, the number of users, device‐to‐device (D2D) communication, 1,2 internet of things (IoT), 3,4 online games with high quality, social media, applications with high traffic consumption, and so on, the network traffic volume is also overgrowing. The main challenges may occur in dense areas with high connection density and very high mobility, such as office towers, subways, highways, railways, department stores, crowded residential areas, etc.…”

Section: Introductionmentioning

confidence: 99%

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Optimizing resources allocation in a heterogeneous cloud radio access network using machine learning

Shirmohamadi

Bakhshi

Dosaranian‐Moghadam

2022

Trans Emerging Tel Tech

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In this article, we propose an iterative algorithm based on lazy learning. The proposed scheme considers two consecutive algorithms for optimal resource allocation in heterogeneous cloud radio access networks (H-CRAN). In the conventional approach, resources allocation is usually presented as a mathematical optimization problem and solved online using a real-time scenario. Due to the non-convex nature of resource allocation problems, finding optimal solutions in real-time is a difficult challenge and has high computational complexity. To overcome these challenges in this paper, the problem is first formulated as a mixed-integer nonlinear programming (MINLP) to optimize the system capacity and assign the underlay users to the subchannels, which is NP-hard. To obtain the solution, in the first algorithm, the proposed problem is first reformulated as a convex problem using a matching theory and coalition formation method. Then, in the second algorithm, the lazy learning method is employed to find the optimal solution to the resources allocation problem. The lazy algorithm uses the output results of the first algorithm as training data, which are known as historical data. Similarities between current scenario data and historical scenario data, as well as the solution of resources allocation in historical scenarios, can be exploited to improve the resource allocation of the current scenario. Simulation results confirm that compared with the conventional approach, the suggested technique can significantly improve the system performance in terms of the total users assigned, overall throughput, the pace of resource allocation, and user fairness.

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Section: Appendix a Proof Of Propertymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Optimizing resources allocation in a heterogeneous cloud radio access network using machine learning

Shirmohamadi

Bakhshi

Dosaranian‐Moghadam

2022

Trans Emerging Tel Tech

View full text Add to dashboard Cite

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An Exact Analytical Model for an IoT Network with MMPP Arrivals

Salameh¹

2021

IJCNC

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Analytical modeling of the Internet of Things (IoT) networks is challenging. This is due to the presence of a large number of devices in these networks and the complexity of the priorities between different types of traffic. Taking these aspects into account, the objective of this paper is to analyze the performance of an IoT network where the IoT devices work independently of one another. To this end, we developed a novel multi-dimensional Continuous-Time Markov Chain (CTMC) model with threshold-based preemption. In this model, each IoT device is modeled as a Markov Modulated Poisson Process (MMPP) that can transmit regular and alarm packets. Alarm packets have higher priority over regular packets. To measure access to the channel between alarm and regular packets, we introduced a threshold parameter where the threshold is the number of packets in the alarm queue that indicates when preemption starts. The performance measures include blocking probability, the average delay of regular packets and alarm packets, discard rate , and success probability of regular packets. Comprehensive numerical analysis was conducted. Our results indicate that impact of the threshold on performance measures is higher on the boundary values of the threshold. The model was proven to be efficient in analyzing the performance of IoT networks on a wide range of parameter values. These results may be used in the future to develop and assess a protocol that utilizes a scheduling algorithm with a dynamic preemption threshold to optimize the performance of the IoT network.

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Performance evaluation of a priority‐based resource allocation scheme for multiclass services in IoT

Cited by 2 publications

References 20 publications

Optimizing resources allocation in a heterogeneous cloud radio access network using machine learning

Optimizing resources allocation in a heterogeneous cloud radio access network using machine learning

An Exact Analytical Model for an IoT Network with MMPP Arrivals

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