MICN: A network coding protocol for ICN with multiple distinct interests per generation

Malik, Hirah; Adjih, Cédric; Weidmann, Claudio; Kieffer, Michel

doi:10.1016/j.comnet.2021.107816

Cited by 3 publications

(2 citation statements)

References 20 publications

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“…Simultaneously, the generation in NetCod-CCN is adopted as the granularity to maintain the cache reachability information [20]. MICN is based on a linear independent content-based multiple interest message (MILIC) structure, which can constrain received interest messages and group data-encoded packets [21]. MICN shows that it can guarantee the reliability of network transmission in the network environment with a high packet loss rate.…”

Section: Background and Related Workmentioning

confidence: 99%

Differentiated Content Acquisition Integrating Network Coding and Edge Computing for Industrial Internet

Wang

2023

Applied Sciences

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The construction of the Industrial Internet has become a concrete implementation and an essential starting point in accelerating the digital transformation and intelligent upgrading of industrial manufacturing enterprises. The problem of addressing and forwarding for resource-constrained devices restricts data acquisition and dissemination on the Industrial Internet. In order to retrieve content reasonably, we propose IDEANE, an identity-differentiated content acquisition and multipath forwarding scheme with network coding and edge computing. In IDEANE, content requests are disseminated based on the identity and location information carried in a multi-identifier network, which can improve the efficiency of interest message requests and reduce idle links in the network. Moreover, the content acquisition computation is offloaded to multiple edge nodes, and the encoded data are transmitted to the edge nodes for recovery. IDEANE offloads the less demanding computing tasks to the edge nodes close to the content requesters, to relieve the pressure on providers. In addition, a collaboration method among multiple edge nodes is also studied. Multiple edge nodes collaborate to support the mobility of content requesters, save energy consumption in terminal devices, reduce transmission latency, and ensure data security. The experimental results show that IDEANE can avoid duplicated transmission, reduce the network link overhead, improve network throughput, and enhance network robustness and reliability.

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Section: Background and Related Workmentioning

confidence: 99%

Differentiated Content Acquisition Integrating Network Coding and Edge Computing for Industrial Internet

Wang

2023

Applied Sciences

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“…While there are ICN solutions that introduce the use of codes such as network codes or rateless codes to ICN architec-tures such as our previous work [7]- [9] and [10], [11] to improve pipelining and enhance Interest messages aggregation; these codes-enabled ICN architectures require modifications of the vanilla ICN protocols and necessitate that all the network is ICN based. Different from these solutions, we employ RLC codes to facilitate seamless mobility management in IP-over-ICN networks through multicasting RLC coded data during handover.…”

Section: Introductionmentioning

confidence: 99%

Intelligent Seamless Handover in Next-Generation Networks

Al-Khalidi,

Al-Zaidi,

Thomos

et al. 2024

IEEE Trans. Consumer Electron.

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Providing high quality of service (QoS) to mobile end-users, and guaranteeing resilient connectivity for healthcare wearables and other mobile devices is a critical component of Industry 5.0. However, one of the biggest difficulties that network operators encounter is the issue of mobility handover, as it can be detrimental to end-users' safety and experience. Although various handover mechanisms have been developed to meet high QoS, achieving optimum handover performance while maintaining sustainable network operation is still an unreached goal. In this paper, random linear codes (RLC) are used to achieve seamless handover, where handover traffic is encoded using RLC and then multicasted to handover destination(s) using a mobility prediction algorithm for destination selection. To overcome the limitations of current IP core networks, we make use of a revolutionary IP-over-Information-Centric Network architecture at the network core that supports highly flexible multicast switching. The combination of the RLC, flexible multicast, and mobility prediction, makes the communication resilient to packet loss and helps to avoid handover failures of existing solutions while reducing overall packet delivery cost, hence offering sustainable mobility support. The performance of the proposed scheme is evaluated using a realistic vehicular mobility dataset and cellular network infrastructure and compared with Fast Handover for Proxy Mobile IPv6 (PFMIPv6). The results show that our scheme efficiently supports seamless session continuity in high mobility environments, reducing the total traffic delivery cost by 44% compared to its counterpart PFMIPv6, while reducing handover delay by 26% and handover failure to less than 2% of total handovers.

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An efficient scheme for in-orbit remote sensing image data retrieval

Chen,

Di,

et al. 2024

Future Generation Computer Systems

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MICN: A network coding protocol for ICN with multiple distinct interests per generation

Cited by 3 publications

References 20 publications

Differentiated Content Acquisition Integrating Network Coding and Edge Computing for Industrial Internet

Differentiated Content Acquisition Integrating Network Coding and Edge Computing for Industrial Internet

Intelligent Seamless Handover in Next-Generation Networks

An efficient scheme for in-orbit remote sensing image data retrieval

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