Caching Policies for Delay Minimization in Small Cell Networks With Coordinated Multi-Point Joint Transmissions
In 5G and beyond network architectures, operators and content providers base their content distribution strategies on Heterogeneous Networks, where macro and small cells are combined to offer better Quality of Service to wireless users. On top of such networks, edge caching and Coordinated Multi-Poi...
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| Published in: | IEEE/ACM transactions on networking Vol. 29; no. 3; pp. 1105 - 1115 |
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| Format: | Journal Article |
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| Abstract | In 5G and beyond network architectures, operators and content providers base their content distribution strategies on Heterogeneous Networks, where macro and small cells are combined to offer better Quality of Service to wireless users. On top of such networks, edge caching and Coordinated Multi-Point (CoMP) joint transmissions are used to further improve performance. In this paper, we address the average delay minimization problem by first formulating it as a static optimization problem. Even though the problem is NP-hard we are able to solve it via an efficient algorithm that guarantees a <inline-formula> <tex-math notation="LaTeX">\frac {1}{2} </tex-math></inline-formula>-approximation ratio. We then proceed to propose two fully distributed and dynamic caching policies for the same problem. The first one asymptotically converges to the static optimal solution under the Independent Reference Model (IRM). The second one provides better results in practice under real (non-stationary) request processes. Our online policies outperform existing dynamic solutions that are PHY-unaware. |
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| AbstractList | In 5G and beyond network architectures, operators and content providers base their content distribution strategies on Heterogeneous Networks, where macro and small cells are combined to offer better Quality of Service to wireless users. On top of such networks, edge caching and Coordinated Multi-Point (CoMP) joint transmissions are used to further improve performance. In this paper, we address the average delay minimization problem by first formulating it as a static optimization problem. Even though the problem is NP-hard we are able to solve it via an efficient algorithm that guarantees a 1 2-approximation ratio. We then proceed to propose two fully distributed and dynamic caching policies for the same problem. The first one asymptotically converges to the static optimal solution under the Independent Reference Model (IRM). The second one provides better results in practice under real (nonstationary) request processes. Our online policies outperform existing dynamic solutions that are PHY-unaware. In 5G and beyond network architectures, operators and content providers base their content distribution strategies on Heterogeneous Networks, where macro and small cells are combined to offer better Quality of Service to wireless users. On top of such networks, edge caching and Coordinated Multi-Point (CoMP) joint transmissions are used to further improve performance. In this paper, we address the average delay minimization problem by first formulating it as a static optimization problem. Even though the problem is NP-hard we are able to solve it via an efficient algorithm that guarantees a <inline-formula> <tex-math notation="LaTeX">\frac {1}{2} </tex-math></inline-formula>-approximation ratio. We then proceed to propose two fully distributed and dynamic caching policies for the same problem. The first one asymptotically converges to the static optimal solution under the Independent Reference Model (IRM). The second one provides better results in practice under real (non-stationary) request processes. Our online policies outperform existing dynamic solutions that are PHY-unaware. In 5G and beyond network architectures, operators and content providers base their content distribution strategies on Heterogeneous Networks, where macro and small cells are combined to offer better Quality of Service to wireless users. On top of such networks, edge caching and Coordinated Multi-Point (CoMP) joint transmissions are used to further improve performance. In this paper, we address the average delay minimization problem by first formulating it as a static optimization problem. Even though the problem is NP-hard we are able to solve it via an efficient algorithm that guarantees a [Formula Omitted]-approximation ratio. We then proceed to propose two fully distributed and dynamic caching policies for the same problem. The first one asymptotically converges to the static optimal solution under the Independent Reference Model (IRM). The second one provides better results in practice under real (non-stationary) request processes. Our online policies outperform existing dynamic solutions that are PHY-unaware. |
| Author | Tuholukova, Alina Spyropoulos, Thrasyvoulos Neglia, Giovanni Ricardo, Guilherme Iecker |
| Author_xml | – sequence: 1 givenname: Guilherme Iecker orcidid: 0000-0002-1750-3777 surname: Ricardo fullname: Ricardo, Guilherme Iecker email: guilherme.ricardo@eurecom.fr organization: EURECOM, Biot Sophia Antipolis Cedex, France – sequence: 2 givenname: Alina surname: Tuholukova fullname: Tuholukova, Alina email: tugolukovaalina@gmail.com organization: EURECOM, Biot Sophia Antipolis Cedex, France – sequence: 3 givenname: Giovanni orcidid: 0000-0001-8779-0620 surname: Neglia fullname: Neglia, Giovanni email: giovanni.neglia@inria.fr organization: Inria, Université Côte d'Azur, Sophia Antipolis Cedex, France – sequence: 4 givenname: Thrasyvoulos surname: Spyropoulos fullname: Spyropoulos, Thrasyvoulos email: thrasyvoulos.spyropoulos@eurecom.fr organization: EURECOM, Biot Sophia Antipolis Cedex, France |
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| Keywords | Edge caching joint transmission optimization distributed algorithms heterogeneous cellular networks CoMP |
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| SubjectTerms | Algorithms Base stations Caching CoMP Computer Aided Engineering Computer architecture Computer Science Delays distributed algorithms Edge caching heterogeneous cellular networks joint transmission Minimization Networks Optimization Policies Quality of service architectures Resource management Servers Signal to noise ratio |
| Title | Caching Policies for Delay Minimization in Small Cell Networks With Coordinated Multi-Point Joint Transmissions |
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