New specification environment for communication systems based on specification reuse by the application of case based reasoning

Ching Fa Huang, Susumu Yoshimura, Takuji Karahashi, Norio Shiratori

    Research output: Contribution to journalArticle

    Abstract

    To advance the productivity of software for communication systems, specification development is important as well as the implementation of the software. For this reason, we developed a specification description language HSC (Hierarchical Sequence Chart), which is useful during the early stage of specification development. The features of HSC are: a) HSC is suitable for a top-down style of specification development, b) specifications can be described by HSC with clear visibility of the whole system, and c) the specification development based on specification reuse is possible. The specification development of communication systems can be divided into three processes: (1) specification acquisition, (2) specification description and (3) specification verification. In this paper we will concentrate on specification acquisition part. We will use the language developed by us, HSC, which is very suitable for this purpose. In this work, we noted that hierarchical structure is the characteristic feature of communication software. As the language HSC has inherent hierarchy and modularity, we conjectured it to be suitable for specifying the requirements of communication software. Efficient reuse of components is accomplished by using CBR technique. Furthermore, we propose a specification acquisition method AOBA, and implemented a support environment for it, called AOBA System, using the CBR tool ART-IM. We experimented with the descriptions of communication systems, for example, the descriptions of services in a telephone system using AOBA System. Through these experiments, the effectiveness of AOBA and AOBA System is ensured.

    Original languageEnglish
    Pages (from-to)1269-1281
    Number of pages13
    JournalIEICE Transactions on Information and Systems
    VolumeE78-D
    Issue number10
    Publication statusPublished - 1995 Oct

    Fingerprint

    Case based reasoning
    Communication systems
    Specifications
    Telephone systems
    Communication
    Visibility

    ASJC Scopus subject areas

    • Computer Graphics and Computer-Aided Design
    • Information Systems
    • Software

    Cite this

    New specification environment for communication systems based on specification reuse by the application of case based reasoning. / Huang, Ching Fa; Yoshimura, Susumu; Karahashi, Takuji; Shiratori, Norio.

    In: IEICE Transactions on Information and Systems, Vol. E78-D, No. 10, 10.1995, p. 1269-1281.

    Research output: Contribution to journalArticle

    Huang, Ching Fa ; Yoshimura, Susumu ; Karahashi, Takuji ; Shiratori, Norio. / New specification environment for communication systems based on specification reuse by the application of case based reasoning. In: IEICE Transactions on Information and Systems. 1995 ; Vol. E78-D, No. 10. pp. 1269-1281.
    @article{24b53b86454244e98dad06e6705bb467,
    title = "New specification environment for communication systems based on specification reuse by the application of case based reasoning",
    abstract = "To advance the productivity of software for communication systems, specification development is important as well as the implementation of the software. For this reason, we developed a specification description language HSC (Hierarchical Sequence Chart), which is useful during the early stage of specification development. The features of HSC are: a) HSC is suitable for a top-down style of specification development, b) specifications can be described by HSC with clear visibility of the whole system, and c) the specification development based on specification reuse is possible. The specification development of communication systems can be divided into three processes: (1) specification acquisition, (2) specification description and (3) specification verification. In this paper we will concentrate on specification acquisition part. We will use the language developed by us, HSC, which is very suitable for this purpose. In this work, we noted that hierarchical structure is the characteristic feature of communication software. As the language HSC has inherent hierarchy and modularity, we conjectured it to be suitable for specifying the requirements of communication software. Efficient reuse of components is accomplished by using CBR technique. Furthermore, we propose a specification acquisition method AOBA, and implemented a support environment for it, called AOBA System, using the CBR tool ART-IM. We experimented with the descriptions of communication systems, for example, the descriptions of services in a telephone system using AOBA System. Through these experiments, the effectiveness of AOBA and AOBA System is ensured.",
    author = "Huang, {Ching Fa} and Susumu Yoshimura and Takuji Karahashi and Norio Shiratori",
    year = "1995",
    month = "10",
    language = "English",
    volume = "E78-D",
    pages = "1269--1281",
    journal = "IEICE Transactions on Information and Systems",
    issn = "0916-8532",
    publisher = "Maruzen Co., Ltd/Maruzen Kabushikikaisha",
    number = "10",

    }

    TY - JOUR

    T1 - New specification environment for communication systems based on specification reuse by the application of case based reasoning

    AU - Huang, Ching Fa

    AU - Yoshimura, Susumu

    AU - Karahashi, Takuji

    AU - Shiratori, Norio

    PY - 1995/10

    Y1 - 1995/10

    N2 - To advance the productivity of software for communication systems, specification development is important as well as the implementation of the software. For this reason, we developed a specification description language HSC (Hierarchical Sequence Chart), which is useful during the early stage of specification development. The features of HSC are: a) HSC is suitable for a top-down style of specification development, b) specifications can be described by HSC with clear visibility of the whole system, and c) the specification development based on specification reuse is possible. The specification development of communication systems can be divided into three processes: (1) specification acquisition, (2) specification description and (3) specification verification. In this paper we will concentrate on specification acquisition part. We will use the language developed by us, HSC, which is very suitable for this purpose. In this work, we noted that hierarchical structure is the characteristic feature of communication software. As the language HSC has inherent hierarchy and modularity, we conjectured it to be suitable for specifying the requirements of communication software. Efficient reuse of components is accomplished by using CBR technique. Furthermore, we propose a specification acquisition method AOBA, and implemented a support environment for it, called AOBA System, using the CBR tool ART-IM. We experimented with the descriptions of communication systems, for example, the descriptions of services in a telephone system using AOBA System. Through these experiments, the effectiveness of AOBA and AOBA System is ensured.

    AB - To advance the productivity of software for communication systems, specification development is important as well as the implementation of the software. For this reason, we developed a specification description language HSC (Hierarchical Sequence Chart), which is useful during the early stage of specification development. The features of HSC are: a) HSC is suitable for a top-down style of specification development, b) specifications can be described by HSC with clear visibility of the whole system, and c) the specification development based on specification reuse is possible. The specification development of communication systems can be divided into three processes: (1) specification acquisition, (2) specification description and (3) specification verification. In this paper we will concentrate on specification acquisition part. We will use the language developed by us, HSC, which is very suitable for this purpose. In this work, we noted that hierarchical structure is the characteristic feature of communication software. As the language HSC has inherent hierarchy and modularity, we conjectured it to be suitable for specifying the requirements of communication software. Efficient reuse of components is accomplished by using CBR technique. Furthermore, we propose a specification acquisition method AOBA, and implemented a support environment for it, called AOBA System, using the CBR tool ART-IM. We experimented with the descriptions of communication systems, for example, the descriptions of services in a telephone system using AOBA System. Through these experiments, the effectiveness of AOBA and AOBA System is ensured.

    UR - http://www.scopus.com/inward/record.url?scp=0029390254&partnerID=8YFLogxK

    UR - http://www.scopus.com/inward/citedby.url?scp=0029390254&partnerID=8YFLogxK

    M3 - Article

    VL - E78-D

    SP - 1269

    EP - 1281

    JO - IEICE Transactions on Information and Systems

    JF - IEICE Transactions on Information and Systems

    SN - 0916-8532

    IS - 10

    ER -