2019
DOI: 10.1109/access.2019.2922251
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Experimental Evaluation of RAN Slicing Architecture With Flexibly Located Functional Components of Base Station According to Diverse 5G Services

Abstract: The future 5th generation (5G) mobile communication system will be required to support diverse services. Because of the difficulty in addressing the requirements of all these services using the same physical network, ''network slicing,'' which provides a customized logical network corresponding to service requirements, has recently attracted a great deal of attention. In the radio access network (RAN), the appropriate locations of base station functionalities to meet service requirements and achieve efficient … Show more

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Cited by 18 publications
(20 citation statements)
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“…Reference [21] discusses different concepts, challenges and management for NS in the RAN domain, but without detailed system architecture. Meanwhile, remote radio unit (RRU) and baseband unit (BBU) mapping [22], [23] and functions split and placement [24] are also studied for NS in the RAN domain. Similar to the system structure proposed by many companies for NS in the TN and CN domains [4]- [7], this paper proposes the system structure for E2E NS including RAN domain.…”
Section: Related Work and Contributionsmentioning
confidence: 99%
“…Reference [21] discusses different concepts, challenges and management for NS in the RAN domain, but without detailed system architecture. Meanwhile, remote radio unit (RRU) and baseband unit (BBU) mapping [22], [23] and functions split and placement [24] are also studied for NS in the RAN domain. Similar to the system structure proposed by many companies for NS in the TN and CN domains [4]- [7], this paper proposes the system structure for E2E NS including RAN domain.…”
Section: Related Work and Contributionsmentioning
confidence: 99%
“…According to different business requirements, different network resources are provided, and different application scenarios are connected to the network in the most appropriate way, to improve the utilization rate of network resources. The three business scenarios defined by 5G are enhanced mobile broadband (eMBB) characterized by a large amount of bandwidth to support high data rate such as ultra-high definition video stream; ultra-reliable and low-latency communications (uRLLC) characterized by high reliability and ultra-low latency services; massive machine-type communications (mMTC) characterized by services with high connection density requirements provided by a massive number of Internet of Things (IoT) devices [16]- [20]. Network slicing then allows operators to partition the networks in a structured, elastic scalable, and automated manner so that each slice is dedicated to one of the three categories of 5G services, and it is then customized and dimensioned to best serve the needs of specific applications.…”
Section: A Network Slicingmentioning
confidence: 99%
“…Similar to the uplink case, the KKT condition (18) here too still involves the Lagrange multipliers, whereas conditions (19), (20), and (21) do not. Therefore, (19), (20) and ( 21) are necessary and sufficient conditions for the solution of our problem.…”
Section: ) Optimal Power Allocation For Users' Throughput Maximizationmentioning
confidence: 99%
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