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[Keyword] repair(43hit)

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  • Ontology Matching and Repair Based on Semantic Association and Probabilistic Logic Open Access

    Nan WU  Xiaocong LAI  Mei CHEN  Ying PAN  

     
    PAPER-Natural Language Processing

      Pubricized:
    2024/07/11
      Vol:
    E107-D No:11
      Page(s):
    1433-1443

    With the development of the Semantic Web, an increasing number of researchers are utilizing ontology technology to construct domain ontology. Since there is no unified construction standard, ontology heterogeneity occurs. The ontology matching method can fuse heterogeneous ontologies, which realizes the interoperability between knowledge and associates to more relevant semantic information. In the case of differences between ontologies, how to reduce false matching and unsuccessful matching is a critical problem to be solved. Moreover, as the number of ontologies increases, the semantic relationship between ontologies becomes increasingly complex. Nevertheless, the current methods that solely find the similarity of names between concepts are no longer sufficient. Consequently, this paper proposes an ontology matching method based on semantic association. Accurate matching pairs are discovered by existing semantic knowledge, and then the potential semantic associations between concepts are mined according to the characteristics of the contextual structure. The matching method can better carry out matching work based on reliable knowledge. In addition, this paper introduces a probabilistic logic repair method, which can detect and repair the conflict of matching results, to enhance the availability and reliability of matching results. The experimental results show that the proposed method effectively improves the quality of matching between ontologies and saves time on repairing incorrect matching pairs. Besides, compared with the existing ontology matching systems, the proposed method has better stability.

  • Optimal (r, δ)-Locally Repairable Codes from Reed-Solomon Codes

    Lin-Zhi SHEN  Yu-Jie WANG  

     
    LETTER-Coding Theory

      Pubricized:
    2023/05/30
      Vol:
    E106-A No:12
      Page(s):
    1589-1592

    For an [n, k, d] (r, δ)-locally repairable codes ((r, δ)-LRCs), its minimum distance d satisfies the Singleton-like bound. The construction of optimal (r, δ)-LRC, attaining this Singleton-like bound, is an important research problem in recent years for thier applications in distributed storage systems. In this letter, we use Reed-Solomon codes to construct two classes of optimal (r, δ)-LRCs. The optimal LRCs are given by the evaluations of multiple polynomials of degree at most r - 1 at some points in Fq. The first class gives the [(r + δ - 1)t, rt - s, δ + s] optimal (r, δ)-LRC over Fq provided that r + δ + s - 1≤q, s≤δ, s

  • Construction of Singleton-Type Optimal LRCs from Existing LRCs and Near-MDS Codes

    Qiang FU  Buhong WANG  Ruihu LI  Ruipan YANG  

     
    PAPER-Coding Theory

      Pubricized:
    2023/01/31
      Vol:
    E106-A No:8
      Page(s):
    1051-1056

    Modern large scale distributed storage systems play a central role in data center and cloud storage, while node failure in data center is common. The lost data in failure node must be recovered efficiently. Locally repairable codes (LRCs) are designed to solve this problem. The locality of an LRC is the number of nodes that participate in recovering the lost data from node failure, which characterizes the repair efficiency. An LRC is called optimal if its minimum distance attains Singleton-type upper bound [1]. In this paper, using basic techniques of linear algebra over finite field, infinite optimal LRCs over extension fields are derived from a given optimal LRC over base field(or small field). Next, this paper investigates the relation between near-MDS codes with some constraints and LRCs, further, proposes an algorithm to determine locality of dual of a given linear code. Finally, based on near-MDS codes and the proposed algorithm, those obtained optimal LRCs are shown.

  • Constructions of Optimal Single-Parity Locally Repairable Codes with Multiple Repair Sets

    Yang DING  Qingye LI  Yuting QIU  

     
    LETTER-Coding Theory

      Pubricized:
    2022/08/03
      Vol:
    E106-A No:1
      Page(s):
    78-82

    Locally repairable codes have attracted lots of interest in Distributed Storage Systems. If a symbol of a code can be repaired respectively by t disjoint groups of other symbols, each groups has size at most r, we say that the code symbol has (r, t)-locality. In this paper, we employ parity-check matrix to construct information single-parity (r, t)-locality LRCs. All our codes attain the Singleton-like bound of LRCs where each repair group contains a single parity symbol and thus are optimal.

  • Cyclic LRCs with Availability from Linearized Polynomials

    Pan TAN  Zhengchun ZHOU   Haode YAN  Yong WANG  

     
    LETTER-Coding Theory

      Pubricized:
    2021/01/18
      Vol:
    E104-A No:7
      Page(s):
    991-995

    Locally repairable codes (LRCs) with availability have received considerable attention in recent years since they are able to solve many problems in distributed storage systems such as repairing multiple node failures and managing hot data. Constructing LRCs with locality r and availability t (also called (r, t)-LRCs) with new parameters becomes an interesting research subject in coding theory. The objective of this paper is to propose two generic constructions of cyclic (r, t)-LRCs via linearized polynomials over finite fields. These two constructions include two earlier ones of cyclic LRCs from trace functions and truncated trace functions as special cases and lead to LRCs with new parameters that can not be produced by earlier ones.

  • Constructions and Some Search Results of Ternary LRCs with d = 6 Open Access

    Youliang ZHENG  Ruihu LI  Jingjie LV  Qiang FU  

     
    LETTER-Coding Theory

      Pubricized:
    2020/09/01
      Vol:
    E104-A No:3
      Page(s):
    644-649

    Locally repairable codes (LRCs) are a type of new erasure codes designed for modern distributed storage systems (DSSs). In order to obtain ternary LRCs of distance 6, firstly, we propose constructions with disjoint repair groups and construct several families of LRCs with 1 ≤ r ≤ 6, where codes with 3 ≤ r ≤ 6 are obtained through a search algorithm. Then, we propose a new method to extend the length of codes without changing the distance. By employing the methods such as expansion and deletion, we obtain more LRCs from a known LRC. The resulting LRCs are optimal or near optimal in terms of the Cadambe-Mazumdar (C-M) bound.

  • Singleton-Type Optimal LRCs with Minimum Distance 3 and 4 from Projective Code

    Qiang FU  Ruihu LI  Luobin GUO  Gang CHEN  

     
    LETTER-Coding Theory

      Vol:
    E104-A No:1
      Page(s):
    319-323

    Locally repairable codes (LRCs) are implemented in distributed storage systems (DSSs) due to their low repair overhead. The locality of an LRC is the number of nodes in DSSs that participate in the repair of failed nodes, which characterizes the repair cost. An LRC is called optimal if its minimum distance attains the Singleton-type upper bound [1]. In this letter, optimal LRCs are considered. Using the concept of projective code in projective space PG(k, q) and shortening strategy, LRCs with d=3 are proposed. Meantime, derived from an ovoid [q2+1, 4, q2]q code (responding to a maximal (q2+1)-cap in PG(3, q)), optimal LRCs over Fq with d=4 are constructed.

  • Locally Repairable Codes from Cyclic Codes and Generalized Quadrangles

    Qiang FU  Ruihu LI  Luobin GUO  

     
    LETTER-Coding Theory

      Vol:
    E103-A No:7
      Page(s):
    947-950

    Locally repairable codes (LRCs) with locality r and availability t are a class of codes which can recover data from erasures by accessing other t disjoint repair groups, that every group contain at most r other code symbols. This letter will investigate constructions of LRCs derived from cyclic codes and generalized quadrangle. On the one hand, two classes of cyclic LRC with given locality m-1 and availability em are proposed via trace function. Our LRCs have the same locality, availability, minimum distance and code rate, but have short length and low dimension. On the other hand, an LRC with $(2,(p+1)lfloor rac{s}{2} floor)$ is presented based on sets of points in PG(k, q) which form generalized quadrangles with order (s, p). For k=3, 4, 5, LRCs with r=2 and different t are determined.

  • Which Replacement Is Better at Working Cycles or Number of Failures Open Access

    Satoshi MIZUTANI  Xufeng ZHAO  Toshio NAKAGAWA  

     
    PAPER-Reliability, Maintainability and Safety Analysis

      Vol:
    E103-A No:2
      Page(s):
    523-532

    When a unit repeats some works over again and undergoes minimal repairs at failures, it is more practical to replace it preventively at the end of working cycles or at its failure times. In this case, it would be an interesting problem to know which is better to replace the unit at a number of working cycles or at random failures from the point of cost. For this purpose, we give models of the expected cost rates for the following replacement policies: (1) The unit is replaced at a working cycle N and at a failure number K, respectively; (2) Replacement first and last policies with working cycle N and failure number K, respectively; (3) Replacement overtime policies with working cycle N and failure number K, respectively. Optimizations and comparisons of the policies for N and K are made analytically and numerically.

  • On the Optimality of Gabidulin-Based LRCs as Codes with Multiple Local Erasure Correction Open Access

    Geonu KIM  Jungwoo LEE  

     
    LETTER-Coding Theory

      Vol:
    E102-A No:9
      Page(s):
    1326-1329

    The Gabidulin-based locally repairable code (LRC) construction by Silberstein et al. is an important example of distance optimal (r,δ)-LRCs. Its distance optimality has been further shown to cover the case of multiple (r,δ)-locality, where the (r,δ)-locality constraints are different among different symbols. However, the optimality only holds under the ordered (r,δ) condition, where the parameters of the multiple (r,δ)-locality satisfy a specific ordering condition. In this letter, we show that Gabidulin-based LRCs are still distance optimal even without the ordered (r,δ) condition.

  • Block-Punctured Binary Simplex Codes for Local and Parallel Repair in Distributed Storage Systems

    Jung-Hyun KIM  Min Kyu SONG  Hong-Yeop SONG  

     
    PAPER-Information Theory

      Vol:
    E101-A No:12
      Page(s):
    2374-2381

    In this paper, we investigate how to obtain binary locally repairable codes (LRCs) with good locality and availability from binary Simplex codes. We first propose a Combination code having the generator matrix with all the columns of positive weights less than or equal to a given value. Such a code can be also obtained by puncturing all the columns of weights larger than a given value from a binary Simplex Code. We call by block-puncturing such puncturing method. Furthermore, we suggest a heuristic puncturing method, called subblock-puncturing, that punctures a few more columns of the largest weight from the Combination code. We determine the minimum distance, locality, availability, joint information locality, joint information availability of Combination codes in closed-form. We also demonstrate the optimality of the proposed codes with certain choices of parameters in terms of some well-known bounds.

  • Construction of Locally Repairable Codes with Multiple Localities Based on Encoding Polynomial

    Tomoya HAMADA  Hideki YAGI  

     
    PAPER-Coding theory and techniques

      Vol:
    E101-A No:12
      Page(s):
    2047-2054

    Locally repairable codes, which can repair erased symbols from other symbols, have attracted a good deal of attention in recent years because its local repair property is effective on distributed storage systems. (ru, δu)u∈[s]-locally repairable codes with multiple localities, which are an extension of ordinary locally repairable codes, can repair δu-1 erased symbols simultaneously from a set consisting of at most ru symbols. An upper bound on the minimum distance of these codes and a construction method of optimal codes, attaining this bound with equality, were given by Chen, Hao, and Xia. In this paper, we discuss the parameter restrictions of the existing construction, and we propose explicit constructions of optimal codes with multiple localities with relaxed restrictions based on the encoding polynomial introduced by Tamo and Barg. The proposed construction can design a code whose minimum distance is unrealizable by the existing construction.

  • A Propagation Method for Multi Object Tracklet Repair

    Nii L. SOWAH  Qingbo WU  Fanman MENG  Liangzhi TANG  Yinan LIU  Linfeng XU  

     
    LETTER-Pattern Recognition

      Pubricized:
    2018/05/29
      Vol:
    E101-D No:9
      Page(s):
    2413-2416

    In this paper, we improve upon the accuracy of existing tracklet generation methods by repairing tracklets based on their quality evaluation and detection propagation. Starting from object detections, we generate tracklets using three existing methods. Then we perform co-tracklet quality evaluation to score each tracklet and filtered out good tracklet based on their scores. A detection propagation method is designed to transfer the detections in the good tracklets to the bad ones so as to repair bad tracklets. The tracklet quality evaluation in our method is implemented by intra-tracklet detection consistency and inter-tracklet detection completeness. Two propagation methods; global propagation and local propagation are defined to achieve more accurate tracklet propagation. We demonstrate the effectiveness of the proposed method on the MOT 15 dataset

  • On Locality of Some Ternary Linear Codes of Dimension 6

    Ruipan YANG  Ruihu LI  Luobin GUO  Qiang FU  

     
    LETTER-Coding Theory

      Vol:
    E100-A No:10
      Page(s):
    2172-2175

    Locally repairable code (LRC) can recover any codeword symbol failure by accessing a small number of other symbols, which can increase the efficiency during the repair process. In a distributed storage system with locally repairable codes, any node failure can be rebuilt by accessing other fixed nodes. It is a promising prospect for the application of LRC. In this paper, some methods of constructing matrices which can generate codes with small locality will be proposed firstly. By analyzing the parameters, we construct the generator matrices of the best-known ternary linear codes of dimension 6, using methods such as shortening, puncturing and expansion. After analyzing the linear dependence of the column vectors in the generator matrices above, we find out the locality of the codes they generate. Many codes with small locality have been found.

  • On Binary Cyclic Locally Repairable Codes with Locality 2

    Yi RAO  Ruihu LI  

     
    LETTER-Coding Theory

      Vol:
    E100-A No:7
      Page(s):
    1588-1591

    Locally repairable codes have recently been applied in distributed storage systems because of their excellent local erasure-correction capability. A locally repairable code is a code with locality r, where each code symbol can be recovered by accessing at most r other code symbols. In this paper, we study the existence and construction of binary cyclic codes with locality 2. An overview of best binary cyclic LRCs with length 7≤n≤87 and locality 2 are summarized here.

  • On the Single-Parity Locally Repairable Codes

    Yanbo LU  Jie HAO  Shu-Tao XIA  

     
    LETTER-Coding Theory

      Vol:
    E100-A No:6
      Page(s):
    1342-1345

    Locally repairable codes (LRCs) have attracted much interest recently due to their applications in distributed storage systems. In an [n,k,d] linear code, a code symbol is said to have locality r if it can be repaired by accessing at most r other code symbols. An (n,k,r) LRC with locality r for the information symbols has minimum distance d≤n-k-⌈k/r⌉+2. In this letter, we study single-parity LRCs where every repair group contains exactly one parity symbol. Firstly, we give a new characterization of single-parity LRCs based on the standard form of generator matrices. For the optimal single-parity LRCs meeting the Singleton-like bound, we give necessary conditions on the structures of generator matrices. Then we construct all the optimal binary single-parity LRCs meeting the Singleton-like bound d≤n-k-⌈k/r⌉+2.

  • Some Constructions for Fractional Repetition Codes with Locality 2

    Mi-Young NAM  Jung-Hyun KIM  Hong-Yeop SONG  

     
    PAPER-Coding Theory

      Vol:
    E100-A No:4
      Page(s):
    936-943

    In this paper, we examine the locality property of the original Fractional Repetition (FR) codes and propose two constructions for FR codes with better locality. For this, we first derive the capacity of the FR codes with locality 2, that is the maximum size of the file that can be stored. Construction 1 generates an FR code with repetition degree 2 and locality 2. This code is optimal in the sense of achieving the capacity we derived. Construction 2 generates an FR code with repetition degree 3 and locality 2 based on 4-regular graphs with girth g. This code is also optimal in the same sense.

  • Maintenance Modeling for a System Equipped on Ship

    Tomohiro KITAGAWA  Tetsushi YUGE  Shigeru YANAGI  

     
    PAPER-Reliability, Maintainability and Safety Analysis

      Vol:
    E100-A No:2
      Page(s):
    629-638

    The maintenance of a system on a ship has limitations when the ship is engaged in a voyage because of limited maintenance resources. When a system fails, it is either repaired instantly on ship with probability p or remains unrepaired during the voyage with probability 1-p owing to the lack of maintenance resources. In the latter case, the system is repaired after the voyage. We propose two management policies for the overhaul interval of an IFR system: one manages the overhaul interval by number of voyages and the other manages it by the total voyage time. Our goal is to determine the optimal policy that ensures the required availability of the system and minimizes the expected cost rate.

  • Reliability-Enhanced ECC-Based Memory Architecture Using In-Field Self-Repair

    Gian MAYUGA  Yuta YAMATO  Tomokazu YONEDA  Yasuo SATO  Michiko INOUE  

     
    PAPER-Dependable Computing

      Pubricized:
    2016/06/27
      Vol:
    E99-D No:10
      Page(s):
    2591-2599

    Embedded memory is extensively being used in SoCs, and is rapidly growing in size and density. It contributes to SoCs to have greater features, but at the expense of taking up the most area. Due to continuous scaling of nanoscale device technology, large area size memory introduces aging-induced faults and soft errors, which affects reliability. In-field test and repair, as well as ECC, can be used to maintain reliability, and recently, these methods are used together to form a combined approach, wherein uncorrectable words are repaired, while correctable words are left to the ECC. In this paper, we propose a novel in-field repair strategy that repairs uncorrectable words, and possibly correctable words, for an ECC-based memory architecture. It executes an adaptive reconfiguration method that ensures 'fresh' memory words are always used until spare words run out. Experimental results demonstrate that our strategy enhances reliability, and the area overhead contribution is small.

  • D2-POR: Direct Repair and Dynamic Operations in Network Coding-Based Proof of Retrievability

    Kazumasa OMOTE  Phuong-Thao TRAN  

     
    PAPER-Cryptography and cryptographic protocols

      Pubricized:
    2016/01/13
      Vol:
    E99-D No:4
      Page(s):
    816-829

    Proof of Retrievability (POR) is a protocol by which a client can distribute his/her data to cloud servers and can check if the data stored in the servers is available and intact. After that, network coding-based POR has been applied to improve network throughput. Although many network coding-based PORs have been proposed, most of them have not achieved the following practical features: direct repair and dynamic operations. In this paper, we propose the D2-POR scheme (Direct repair and Dynamic operations in network coding-based POR) to address these shortcomings. When a server is corrupted, the D2-POR can support the direct repair in which the data stored in the corrupted server can be repaired using the data directly provided by healthy servers. The client is thus free from the burden of data repair. Furthermore, the D2-POR allows the client to efficiently perform dynamic operations, i.e., modification, insertion and deletion.

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