LISP-Based Integrated Control Plane Framework for Service Function Chaining in Distributed Edge Clouds

Sun, Kyoungjae; Kim, Young-Han

doi:10.1109/access.2021.3069974

Cited by 3 publications

(3 citation statements)

References 23 publications

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“…Another network-layer solution is provided by the work in [28], where the Locator/Identifier Separation Protocol (LISP) is used in conjunction with SRv6. The approach allows the managing of the path migration for the Service Function Chains (SFCs) in a distributed edge environment, with the aim of facilitating user mobility.…”

Section: Related Workmentioning

confidence: 99%

SRv6-Based Edge Service Continuity in 5G Mobile Networks

Lemmi,

Puliafito,

Virdis

et al. 2024

Future Internet

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Ensuring compliance with the stringent latency requirements of edge services requires close cooperation between the network and computing components. Within mobile 5G networks, the nomadic behavior of users may impact the performance of edge services, prompting the need for workload migration techniques. These techniques allow services to follow users by moving between edge nodes. This paper introduces an innovative approach for edge service continuity by integrating Segment Routing over IPv6 (SRv6) into the 5G core data plane alongside the ETSI multi-access edge computing (MEC) architecture. Our approach maintains compatibility with non-SRv6 5G network components. We use SRv6 for packet steering and Software-Defined Networking (SDN) for dynamic network configuration. Leveraging the SRv6 Network Programming paradigm, we achieve lossless workload migration by implementing a packet buffer as a virtual network function. Our buffer may be dynamically allocated and configured within the network. We test our proposed solution on a small-scale testbed consisting of an Open Network Operating System (ONOS) SDN controller and a core network made of P4 BMv2 switches, emulated using Mininet. A comparison with a non-SRv6 alternative that uses IPv6 routing shows the higher scalability and flexibility of our approach in terms of the number of rules to be installed and time required for configuration.

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Section: Related Workmentioning

confidence: 99%

SRv6-Based Edge Service Continuity in 5G Mobile Networks

Lemmi,

Puliafito,

Virdis

et al. 2024

Future Internet

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“…The traditional method to solve this problem is to adapt IP mobility management to service mobility management, which maintains service IP addresses even when the service location is changed [2][3][4][5], however the traffic path cannot be optimized by anchoring the address at the edge cloud, where the service is initially instantiated. To solve this problem, several methods have been researched to separate the IP context into the ID and location [6][7][8][9][10]. In particular, in our previous studies [9][10] the location/ID separation protocol (LISP) [11] was used to assign a unique service regardless of its location.…”

Section: Introductionmentioning

confidence: 99%

“…To solve this problem, several methods have been researched to separate the IP context into the ID and location [6][7][8][9][10]. In particular, in our previous studies [9][10] the location/ID separation protocol (LISP) [11] was used to assign a unique service regardless of its location. With the enhanced mapping system of the service ID and its locator, our work verified that the nearest service is always accessed while minimizing the service downtime even when the mobile user is rapidly roaming across multiple edge clouds.…”

Section: Introductionmentioning

confidence: 99%

LISP-Based Control Plane for Service Connectivity in Multi-Cluster Cloud Systems

2022

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In mobile networks, the edge cloud environment has emerged to provide various services to users. When the mobile user moves to another location while connecting the edge cloud service, to maintain an optimal service path, it is necessary to migrate the service to a new edge cloud close to the location where the user is newly connected. Several methods have been proposed to integrate edge cloud service migration technology with existing mobility management protocols in mobile networks, and a location/ID separation protocol (LISP)-based service optimal path management method between edge clouds was recently proposed. However, for real implementation of edge cloud with existing platform specified to containerized infrastructure, where the address of service is allocated randomly and locally, it is hard to discover appropriate service from the external client as well as maintain service connectivity when service location is changed. To solve that, this paper proposed the LISP-based service ID management system which provides uniform access for equivalent services running on different edge clouds. To apply the proposed ID management system on real distributed edge cloud systems, the mobility management and edge cloud networking systems were integrated as shown in the testbed implementation. This shows the possibility of combining the isolated mobility management for mobile users and internal identification of edge services using LISP for reducing the interruption and delay of edge service for mobile users. As a result of the experiments conducted on a real testbed, our proposed system was verified to enable a change in the routing path while maintaining a single service ID between different edge clouds, and the delay time for path reconfiguration is reduced compared to the existing method.

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