• Title/Summary/Keyword: Node Search

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K-Hop Community Search Based On Local Distance Dynamics

  • Meng, Tao;Cai, Lijun;He, Tingqin;Chen, Lei;Deng, Ziyun
    • KSII Transactions on Internet and Information Systems (TIIS)
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    • v.12 no.7
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    • pp.3041-3063
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    • 2018
  • Community search aims at finding a meaningful community that contains the query node and also maximizes (minimizes) a goodness metric. This problem has recently drawn intense research interest. However, most metric-based algorithms tend to include irrelevant subgraphs in the identified community. Apart from the user-defined metric algorithm, how can we search the natural community that the query node belongs to? In this paper, we propose a novel community search algorithm based on the concept of the k-hop and local distance dynamics model, which can naturally capture a community that contains the query node. The basic idea is to envision the nodes that k-hop away from the query node as an adaptive local dynamical system, where each node only interacts with its local topological structure. Relying on a proposed local distance dynamics model, the distances among nodes change over time, where the nodes sharing the same community with the query node tend to gradually move together, while other nodes stay far away from each other. Such interplay eventually leads to a steady distribution of distances, and a meaningful community is naturally found. Extensive experiments show that our community search algorithm has good performance relative to several state-of-the-art algorithms.

Detection and Location of Open Circuit Fault by Space Search (Space Search에 의한 회로의 단선 결함을 발견 및 위치 검색법)

  • Han, Kyong-Ho;Kang, Sang-Won;Lee, In-Sung
    • The Journal of the Acoustical Society of Korea
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    • v.14 no.2E
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    • pp.43-49
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    • 1995
  • In this paper a space search technique is used to detect and locate the faults of the circuit interconnections. The circuit interconnections are represented by the tree structure and the tree space is searched to detect and locate the open faults of the circuit interconnections. The breadth search is used to detect the open faults and reduce the space size. The depth search is used to locate the open faults.

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An Optimized Address Lookup Method in the Multi-way Search Tree (멀티웨이 트리에서의 최적화된 어드레스 룩업 방법)

  • 이강복;이상연;이형섭
    • Proceedings of the IEEK Conference
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    • 2001.06a
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    • pp.261-264
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    • 2001
  • This paper relates to a node structure of a multiway search tree and a search method using the node structure and, more particularly, to a search method for accelerating its search speed by reducing the depth of each small tree in a multi-way search tree. The proposed idea can increase the number of keys capable of being recorded on a cache line by using one pointer at a node of the multi-way search tree so that the number of branches in a network address search is also increased and thus the tree depth is reduced. As a result, this idea can accelerate the search speed and the speed of the forwarding engine and accomplish a further speed-up by decreasing required memories and thus increasing a memory rate.

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IP Prefix Update of Routing Protocol in the Multi-way Search Tree (멀티웨이 트리에서의 IP Prefix 업데이트 방안)

  • 이상연;이강복;이형섭
    • Proceedings of the IEEK Conference
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    • 2001.06a
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    • pp.269-272
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    • 2001
  • Since Multi-way Search Tree reduces the number of the memory access by increasing the branch factor, it is considered a method to archive the high-speed IP address lookup. Using the combination of initial 16 bit may and Multi-way Search Tree, it also reduces the search time of If address lookup. Multi-way Search Tree consists of K keys and K+1 key pointers. This paper shows how the E update of Multi-way Search Tree which consists of the one pointer within a node can be performed. Using the one pointer within a node, it increases the number of keys within a node and reduces the search time of IP lookup. We also describes IP updating methods such as modification, Insertion and Deletion of address entries. Our update scheme performs better than the method which rebuilds the entire IP routing table when IP update processes.

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Computing Methods of Node Traversal Time of ERS Algorithm to Reduce the Retransmission Rate in AODV Routing Protocol (AODV 라우팅 프로토콜에서 재전송률을 낮추기 위한 ERS 알고리즘의 노드순회시간 계산방법)

  • Sun Chang-Yoon;Kang Seung-Ho;Lim Hyeong-Seok
    • The KIPS Transactions:PartC
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    • v.13C no.4 s.107
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    • pp.447-454
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    • 2006
  • An ad-hoc network routing protocol, AODV(Ad-hoc On-demand Distance Vector) initially uses ERS(Expanding Ring Search) algorithm to control the RREQ(Route Request) retransmission in the route discovery process. Because ERS uses the fixed NTT(Node Travesal Time), it does not reflect accurately ad-hoc network environment. In this paper, we propose an improved ERS algorithm which lowers the retransmission rate. It uses RREP(Route Reply) and gives different weights in NTT of each node in accordance with the adjacency to an originating node. To show the effectiveness of the proposed algorithm, we perform a simulation using ns2. The simulation results showed that the proposed algorithm has better performance than existing algorithms.

Finding Top-k Answers in Node Proximity Search Using Distribution State Transition Graph

  • Park, Jaehui;Lee, Sang-Goo
    • ETRI Journal
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    • v.38 no.4
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    • pp.714-723
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    • 2016
  • Considerable attention has been given to processing graph data in recent years. An efficient method for computing the node proximity is one of the most challenging problems for many applications such as recommendation systems and social networks. Regarding large-scale, mutable datasets and user queries, top-k query processing has gained significant interest. This paper presents a novel method to find top-k answers in a node proximity search based on the well-known measure, Personalized PageRank (PPR). First, we introduce a distribution state transition graph (DSTG) to depict iterative steps for solving the PPR equation. Second, we propose a weight distribution model of a DSTG to capture the states of intermediate PPR scores and their distribution. Using a DSTG, we can selectively follow and compare multiple random paths with different lengths to find the most promising nodes. Moreover, we prove that the results of our method are equivalent to the PPR results. Comparative performance studies using two real datasets clearly show that our method is practical and accurate.

Quantization Data Transmission for Optimal Path Search of Multi Nodes in cloud Environment (클라우드 환경에서 멀티 노드들의 최적 경로 탐색을 위한 양자화 데이터 전송)

  • Oh, HyungChang;Kim, JaeKwon;Kim, TaeYoung;Lee, JongSik
    • Journal of the Korea Society for Simulation
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    • v.22 no.2
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    • pp.53-62
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    • 2013
  • Cloud environment is one in the field of distributed computing and it consists of physical nodes and virtual nodes. In distributed cloud environment, an optimal path search is that each node to perform a search for an optimal path. Synchronization of each node is required for the optimal path search via fast data transmission because of real-time environment. Therefore, a quantization technique is required in order to guarantee QoS(Quality of Service) and search an optimal path. The quantization technique speeds search data transmission of each node. So a main server can transfer data of real-time environment to each node quickly and the nodes can perform to search optimal paths smoothly. In this paper, we propose the quantization technique to solve the search problem. The quantization technique can reduce the total data transmission. In order to experiment the optimal path search system which applied the quantized data transmission, we construct a simulation of cloud environment. Quantization applied cloud environment reduces the amount of data that transferred, and then QoS of an application for the optimal path search problem is guaranteed.

A Path Fault Avoided RPAODV Routing in Ad Hoc Networks (Ad Hoc 네트워크의 경로손실 회피기반 RPAODV 라우팅)

  • Wu Mary;Kim Youngrak;Kim Chonggun
    • The KIPS Transactions:PartC
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    • v.11C no.7 s.96
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    • pp.879-888
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    • 2004
  • Ad Node transmits packets to a destination node using routing function of intermediate nodes on the path in Ad Hoc networks. When the link to a next hop node in a path is broken due to the next hop node's mobility, a new route search process is required for continuing packets transmission. The node which recognizes link fault starts a local route recovery or the source node starts a new route search in the on demand routing protocol AODV. In this case, the new route search or the local route search brings packet delays and bad QoSs by packet delay. We propose RPAODV that the node predicts a link fault selects a possible node in neighbor nodes as a new next hop node for the path. The proposed protocol can avoid path faults and improve QoS.

Design of the Flexible Buffer Node Technique to Adjust the Insertion/Search Cost in Historical Index (과거 위치 색인에서 입력/검색 비용 조정을 위한 가변 버퍼 노드 기법 설계)

  • Jung, Young-Jin;Ahn, Bu-Young;Lee, Yang-Koo;Lee, Dong-Gyu;Ryu, Keun-Ho
    • The KIPS Transactions:PartD
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    • v.18D no.4
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    • pp.225-236
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    • 2011
  • Various applications of LBS (Location Based Services) are being developed to provide the customized service depending on user's location with progress of wireless communication technology and miniaturization of personalized device. To effectively process an amount of vehicles' location data, LBS requires the techniques such as vehicle observation, data communication, data insertion and search, and user query processing. In this paper, we propose the historical location index, GIP-FB (Group Insertion tree with Flexible Buffer Node) and the flexible buffer node technique to adjust the cost of data insertion and search. the designed GIP+ based index employs the buffer node and the projection storage to cut the cost of insertion and search. Besides, it adjusts the cost of insertion and search by changing the number of line segments of the buffer node with user defined time interval. In the experiment, the buffer node size influences the performance of GIP-FB by changing the number of non-leaf node of the index. the proposed flexible buffer node is used to adjust the performance of the historical location index depending on the applications of LBS.

A Concurrency Control Method for Non-blocking Search Operation based on R-tree (논 블록킹 검색연산을 위한 R-tree 기반의 동시성 제어 기법)

  • Kim, Myung-Keun;Bae, Hae-Young
    • The KIPS Transactions:PartD
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    • v.11D no.4
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    • pp.809-822
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    • 2004
  • In this paper, we propose a concurrency control algorithm based on R-tree for spatial database management system. The previous proposed algorithms can't prevent problem that search operation is to be blocking during update operations. In case of multidimensional indexes like R-tree, locking of update operations may be locked to several nodes, and splitting of nodes have to lock a splitting node for a long time. Therefore search operations have to waiting a long time until update operations unlock. In this paper we propose new algorithms for lock-free search operation. First, we develop a new technique using a linked-list technique on the node. The linked-list enable lock-free search when search operations search a node. Next, we propose a new technique using a version technique. The version technique enable lock-free search on the node that update operations is to be splitting.