H-Pastry: An inter-domain topology aware overlay for the support of name-resolution services in the future Internet

Fotiou, Nikos; Κατσαρός, Κωνσταντίνος; Xylomenos, George; Polyzos, George C.

doi:10.1016/j.comcom.2015.02.003

Cited by 17 publications

(8 citation statements)

References 37 publications

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“…One popular approach to improve the scalability for flat name-based NRS is to use a DHT-based routing method to store the name bindings in appropriate resolvers via hash functions. Nested and hierarchical DHT architecture were utilized to implement distributed and scalable NRS based on flat names, such as Multi-level Distributed Hash Table (MDHT) [22], Hierarchical Distributed Hash Table (HDHT) [26], Scalable Multi-level Virtual Distributed Hash Table (SVMDHT) [27], and Hierarchical Pastry (H-Pastry) [28]. However, the administrative scope of the DHT mechanism is a prominent problem [20], and the existing methods have almost no specific solutions to solve the problem of hierarchical and nested area division and management.…”

Section: Scalabilitymentioning

confidence: 99%

“…In addition, our ENRS is also different from existing hierarchical and nested ICN NRS, e.g., DONA [9], HDHT [26], H-Pastry [28], and CURING [50], which organize the hierarchical and nested structure based on the hierarchical structure of the underlying inter-domain topology, i.e., at theAutonomous System (AS) level, the Point of Presence (POP) level, or the Access Node (AN) level. Our ENRS not only considers the underlying topology, but also quantifies the hierarchical and nested areas by transmission latency constraints from the user nodes to the serviced resolvers.…”

Section: System Modelmentioning

confidence: 99%

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A Temporally Hierarchical Deployment Architecture for an Enhanced Name Resolution System

2019

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The challenging requirements of the fifth generation (5G) cellular networks motivate the need to explore the feasibility of delivering services over new network architectures. Information-Centric Networking (ICN) is an emerging and promising network to satisfy 5G requirements. The name resolution is at the heart of ICN. We focus on satisfying the delay-sensitive requirement of the Name Resolution Service (NRS) in a 5G-ICN integrated network. We aim to design a local NRS that provides a deterministic low latency name resolution service. In this paper, we propose a temporally hierarchical deployment architecture for an Enhanced Name Resolution System (ENRS) to realize deterministic latency. The ENRS quantifiably organizes the nodes into hierarchical and nested domains by latency constraints. We design demand-aware name registration and resolution schemes to achieve constant forwarding hops in order to realize local resolution and forwarding locality. We introduce a tolerable latency-based peer resolver forwarding algorithm to improve the query hit ratio. We present a proactive name binding replicas distribution approach based on temporal–spatial features to reduce the resolution latency and query traffic. The video streaming monitoring service in Smart Home is used as a typical use case to show the continuity of service guaranteed by ENRS. Analysis demonstrates that ENRS can achieve deterministic latency. Evaluation results show that the average query hit ratio of ENRS outperforms the K-NearestNeighbor-Distributed Name Resolution System (KNN-DNRS) and Random Name Resolution System (Random-NRS) with 23.2% and 18.1%, respectively. The query traffic overhead of ENRS is up to 33.3 times smaller than KNN-DNRS. ENRS can process up to 21 GB/s name resolution traffic when the user nodes are in the magnitude order of 106.

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Section: Scalabilitymentioning

confidence: 99%

Section: System Modelmentioning

confidence: 99%

A Temporally Hierarchical Deployment Architecture for an Enhanced Name Resolution System

2019

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“…However, the presented performance evaluation is based on an oversimplified abstraction of the inter-domain topology i.e., a full k-ary tree, overlooking the effect of multihoming and peering links. DHT-NRS [11] is based on H-Pastry [20], a multi-level version of the Pastry DHT [21] that tries to adapt to the underlying network hierarchy by taking physical network proximity, administrative domain boundaries and inter-domain routing policies into account. Although DHT-NRS exhibits better performance than other DHT-based NRSs, it reduces but does not eliminate the intrinsic problems of DHTs [11].…”

Section: B Lookup-by-name Approachesmentioning

confidence: 99%

On the inter-domain scalability of route-by-name Information-Centric Network Architectures

Κατσαρός

Vasilakos

Okwii

et al. 2015

2015 IFIP Networking Conference (IFIP Networking)

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Name resolution is at the heart of Information-Centric Networking (ICN), where names are used to both identify information and/or services, and to guide routing and forwarding inside the network. The ICN focus on information, rather than hosts, raises significant concerns regarding the scalability of the required Name Resolution System (NRS), especially when considering global scale, inter-domain deployments. In the routeby-name approach to NRS construction, name resolution and the corresponding state follow the routing infrastructure of the underlying inter-domain network. The scalability of the resulting NRS is therefore strongly related to the topological and routing characteristics of the network. However, past work has largely neglected this aspect. In this paper, we present a detailed investigation and comparison of the scalability properties of two route-by-name inter-domain NRS designs, namely, DONA and CURLING. Based on both real, full-scale inter-domain topology traces and synthetic, scaled-down topologies, our work quantifies a series of important scalability-related performance aspects, including the distribution of name-resolution state across the Internet topology and the associated processing and signaling overheads. We show that by avoiding DONA's exchange of state across peering links, CURLING results in deployment costs proportional to the total number of downstream customers of each Autonomous System. This translates to a 62-fold global state size reduction, at the expense of a 2.78-fold increase in lookup processing load, making CURLING a feasible approach to ICN name resolution.

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“…However, the uniform distribution of keys makes Chord unable to support range queries, which require data locality. Recently, several schemes have focused on similarity search over high-dimensional data in structured P2P overlay networks [6][7][8][9][10][11]. These schemes design different indexing structures in DHT-based P2P networks to support complicated similarity search.…”

Section: Introductionmentioning

confidence: 99%

Towards Load Balance and Maintenance in a Structured P2P Network for Locality Sensitive Hashing

Liu

2016

Electronics, Communications and Networks V

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In this paper, we consider load balancing and maintenance of distributed similarity search systems using locality sensitive hashing (LSH) in a structured peer-to-peer (P2P) network based on Distributed Hashing Table (DHT). LSH has been proven efficient in K-Nearest Neighbor (KNN) search in high dimensions. Recently, a number of schemes have been proposed to implement LSH over DHT-based P2P systems to process distributed similarity searches. We provide an efficient structure using virtual nodes to manage the multi-dimensional LSH bucket space in DHT peers and the maintenance algorithm, which improves load balancing in comparison with state-of-the-art techniques such as the virtual node algorithm. Here, we demonstrate effectiveness of the proposed method by experiments.

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H-Pastry: An inter-domain topology aware overlay for the support of name-resolution services in the future Internet

Cited by 17 publications

References 37 publications

A Temporally Hierarchical Deployment Architecture for an Enhanced Name Resolution System

A Temporally Hierarchical Deployment Architecture for an Enhanced Name Resolution System

On the inter-domain scalability of route-by-name Information-Centric Network Architectures

Towards Load Balance and Maintenance in a Structured P2P Network for Locality Sensitive Hashing

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