Named Data Network (NDN) Scalability Problem

Wibowo, Tody Ariefianto; Syambas, Nana Rachmana; Hendrawan,

doi:10.1109/apwimob48441.2019.8964134

Cited by 8 publications

(3 citation statements)

References 32 publications

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“…Centralized SDN‐based routing in NDN has its own set of open issues (see Table 1). One of the main issues is the scalability 24 of NDN routing in SDN. The exponential growth of routing tables due to a rise in content objects can result in significant overhead and performance degradation.…”

Section: Open Challenges In Centralized Routingmentioning

confidence: 99%

A review of SDN‐enabled routing protocols for Named Data Networking

Yassine,

Najib,

Abdellah

2024

Engineering Reports

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Named Data Networking is a novel network architecture for the future internet in which data is named rather than addressed. This enables routers to forward data more efficiently based on its name, outperforming IP‐based routing. Another networking architecture that divides the control plane and the data plane is software‐defined networking (SDN). In an SDN network, the control plane decides on routing while the data plane forwards data packets. This separation increases routing flexibility and scalability. Numerous techniques to improve routing can be achieved with NDN and SDN integration. This paper provides an in‐depth examination of routing approaches in NDN based on SDN, emphasizing design principles, algorithms, and performance measures. We begin by summarizing the NDN architecture and delving into its essential components. We next go into the core routing ideas in NDN and categorize and study several routing solutions based on Software Defined Networks. Finally, we highlight the need for scalable, effective, and secure routing systems that may satisfy the expanding requirements of the contemporary internet. We also suggest open research topics in NDN routing based on SDN. This review provides an extensive overview of current centralized routing approaches in NDN, including their limitations and future possibilities.

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Section: Open Challenges In Centralized Routingmentioning

confidence: 99%

A review of SDN‐enabled routing protocols for Named Data Networking

Yassine,

Najib,

Abdellah

2024

Engineering Reports

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“…Dash et al [136], show with a simulation that their approach can decrease the flooding problem up to 30% while retaining the hit ratio. Wibowo et al [115], discussed the scalability issue in NDN routing in terms of routing and forwarding.…”

Section: B Challenges and Open Issues In Link State Routing In Ndnmentioning

confidence: 99%

Named Data Networking: A Survey on Routing Strategies

et al. 2022

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Data has become an increasingly significant component of the Internet as it has increased in popularity. Where people care more about the data than the location of data. The Named Data Network (NDN) took this concept and paired it with the idea of making data a core component rather than host addresses. Because of its in-network caching capability, NDN will become a better contender than current Transmission Control Protocol and Internet Protocol (TCP/IP) based networks as data traffic grows exponentially. NDNrelated challenges are available for investigation as NDN becomes more important. Routing in NDN is another essential domain that needs to be addressed, and several approaches have been presented to address routing concerns in NDN. In this study, we discuss and highlight NDN and its routing strategies comprehensively. In addition, this research illustrates a comparison of important routing paradigms to emphasis the breadth of routing research in NDN. Also, we investigate the routing attributes of NDN and expose the latest literature on this critical topic. Finally, this study provides useful insights into the emerging areas of guidance in the NDN to assist future studies in addressing challenges and open research issues. INDEX TERMSNamed Data Networks, Open Research issues in NDN, Routing in NDN I.

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“…[4], [8]. Future research must develop efficient mechanisms for SDN control of NDN routing that address scalability [6].…”

Section: Introductionmentioning

confidence: 99%

Named Multipath Depth-First Search: An SDN-based Routing Strategy for Efficient Failure Handling and Content Delivery in NDN

Yassine,

Najib,

Abdellah

2023

Int. j. commun. netw. inf. secur.

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Information-centric networking (ICN) architectures, such as named data networking (NDN), have emerged as potential solutions for efficiently retrieving and delivering content. However, challenges remain regarding routing scalability, resilience, and caching efficiency. Software-defined networking (SDN) offers opportunities to optimize NDN implementations through centralized control and programmability. In this paper, we propose Named Multipath DFS, an SDN-based routing and caching scheme for NDN networks. NMDFS leverages a centralized controller to pre-compute multipath routes and implement coordinated caching. We evaluate NMDFS on an emulated topology testbed against default NDN and Named-data link state routing. The results demonstrate significant improvements with NMDFS, reducing overhead signalling costs by 94% and 78%, respectively, compared with other schemes. Round-trip latencies for content retrieval were reduced by up to 98%. The SDN controller’s global network view and control are leveraged to optimize content caching through packet loss-driven adaptation and eliminate redundant messaging, leading to substantial performance gains.

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Named Data Network (NDN) Scalability Problem

Cited by 8 publications

References 32 publications

A review of SDN‐enabled routing protocols for Named Data Networking

A review of SDN‐enabled routing protocols for Named Data Networking

Named Data Networking: A Survey on Routing Strategies

Named Multipath Depth-First Search: An SDN-based Routing Strategy for Efficient Failure Handling and Content Delivery in NDN

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