Optimization of IoT perceived content caching in F-RANs: Minimum retrieval delay and resource extension with performance sensitivity

In the Internet of Things (IoT) perceived applications of monitoring the states of the environment, a feasible technology is to use fog radio access networks (F-RANs) to alleviate the problems of long response time and cloud server bottlenecks in cloud computing. In response to the above problems, t...

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Vydané v:	Future generation computer systems Ročník 164; s. 107572
Hlavný autor:	Hu, Chia-Cheng
Médium:	Journal Article
Jazyk:	English
Vydavateľské údaje:	Elsevier B.V 01.03.2025
Predmet:	Content caching Fog radio access network (F-RAN) Integer linear programming (ILP) Internet of Things (ioT) Resource extension Retrieval delay Fog radio access network (F-RAN) Resource extension Integer linear programming (ILP) Retrieval delay Internet of Things (ioT) Content caching
ISSN:	0167-739X
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Abstract	In the Internet of Things (IoT) perceived applications of monitoring the states of the environment, a feasible technology is to use fog radio access networks (F-RANs) to alleviate the problems of long response time and cloud server bottlenecks in cloud computing. In response to the above problems, this work investigates the problem of minimizing the retrieval delay of IoT contents in F-RANs under the constraints of system resources. The problem is formulated as an integer linear programming (ILP) model. Then, a polynomial-time method with linear programming (LP) relaxation and rounding is proposed to approximate the optimal solution of the problem. Through proof, the method can obtain a feasible solution with a bounded approximation ratio in polynomial time. The conducted simulations validate that the obtained feasible solution is very close to the optimal one. On the other hand, when the system resources are not enough to meet the continuous growth of content retrieval and need to be expanded, this work further establishes an association relation between cached contents and system resources. Based on the above relation, the second method of expanding system resources with performance sensitivity is proposed to provide the service provider with an effective and economical expansion of system resources. It utilizes a predefined system parameter in balancing the trade-off between the approximation ratio to the optimal solution of the problem and the extended system resources. The solution obtained by the second method is also proved to have a bounded approximation ratio. •Proposing to minimize IoT content retrieval delay under resource constraints in F-RANs.•Two algorithms use rounding techniques for feasible solutions with bounded ratios.•Simulations show superior performance and solutions close to optimal vs. recent works.
AbstractList	In the Internet of Things (IoT) perceived applications of monitoring the states of the environment, a feasible technology is to use fog radio access networks (F-RANs) to alleviate the problems of long response time and cloud server bottlenecks in cloud computing. In response to the above problems, this work investigates the problem of minimizing the retrieval delay of IoT contents in F-RANs under the constraints of system resources. The problem is formulated as an integer linear programming (ILP) model. Then, a polynomial-time method with linear programming (LP) relaxation and rounding is proposed to approximate the optimal solution of the problem. Through proof, the method can obtain a feasible solution with a bounded approximation ratio in polynomial time. The conducted simulations validate that the obtained feasible solution is very close to the optimal one. On the other hand, when the system resources are not enough to meet the continuous growth of content retrieval and need to be expanded, this work further establishes an association relation between cached contents and system resources. Based on the above relation, the second method of expanding system resources with performance sensitivity is proposed to provide the service provider with an effective and economical expansion of system resources. It utilizes a predefined system parameter in balancing the trade-off between the approximation ratio to the optimal solution of the problem and the extended system resources. The solution obtained by the second method is also proved to have a bounded approximation ratio. •Proposing to minimize IoT content retrieval delay under resource constraints in F-RANs.•Two algorithms use rounding techniques for feasible solutions with bounded ratios.•Simulations show superior performance and solutions close to optimal vs. recent works.
ArticleNumber	107572
Author	Hu, Chia-Cheng
Author_xml	– sequence: 1 givenname: Chia-Cheng orcidid: 0000-0002-5943-1070 surname: Hu fullname: Hu, Chia-Cheng email: jjhwu@ksts.seed.net.tw organization: College of Artificial Intelligence, Yango University, Fuzhou, China
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Keywords	Fog radio access network (F-RAN) Resource extension Integer linear programming (ILP) Retrieval delay Internet of Things (ioT) Content caching
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Snippet	In the Internet of Things (IoT) perceived applications of monitoring the states of the environment, a feasible technology is to use fog radio access networks...
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StartPage	107572
SubjectTerms	Content caching Fog radio access network (F-RAN) Integer linear programming (ILP) Internet of Things (ioT) Resource extension Retrieval delay
Title	Optimization of IoT perceived content caching in F-RANs: Minimum retrieval delay and resource extension with performance sensitivity
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