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    A novel method of state identification sequences generation for testing communication protocols modeled as extended finite state machines

    New search for: Ting Shu,
    New search for: Shouqian Sun,
    New search for: Haining Wang,

    The existence of predicate and conditional statements of the protocol transition specified in EFSM model results in the generation of infeasible State Identification Sequence using traditional methods. Thus, how to automatically generate executable State Identification Sequences, in an efficient and effective way, becomes the critical issue for protocol conformance testing. In this paper, we present a novel method of executable state identification sequence generation used to preferably solve the executability problem of state identification sequences. Specifically, in terms of an executable analysis tree (EAT), the proposed method can ensure the executability of the generated state identification sequence. In a specific state identification scene, we can use a state projection subspace to simplify the state identification work. At last, an example was performed to show that the new method is how to work effectively.

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    A novel method of state identification sequences generation for testing communication protocols modeled as extended finite state machines

    New search for: Ting Shu,
    New search for: Shouqian Sun,
    New search for: Haining Wang,

    The existence of predicate and conditional statements of the protocol transition specified in EFSM model results in the generation of infeasible State Identification Sequence using traditional methods. Thus, how to automatically generate executable State Identification Sequences, in an efficient and effective way, becomes the critical issue for protocol conformance testing. In this paper, we present a novel method of executable state identification sequence generation used to preferably solve the executability problem of state identification sequences. Specifically, in terms of an executable analysis tree (EAT), the proposed method can ensure the executability of the generated state identification sequence. In a specific state identification scene, we can use a state projection subspace to simplify the state identification work. At last, an example was performed to show that the new method is how to work effectively.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    A novel method of state identification sequences generation for testing communication protocols modeled as extended finite state machines

    New search for: Ting Shu,
    New search for: Shouqian Sun,
    New search for: Haining Wang,

    The existence of predicate and conditional statements of the protocol transition specified in EFSM model results in the generation of infeasible State Identification Sequence using traditional methods. Thus, how to automatically generate executable State Identification Sequences, in an efficient and effective way, becomes the critical issue for protocol conformance testing. In this paper, we present a novel method of executable state identification sequence generation used to preferably solve the executability problem of state identification sequences. Specifically, in terms of an executable analysis tree (EAT), the proposed method can ensure the executability of the generated state identification sequence. In a specific state identification scene, we can use a state projection subspace to simplify the state identification work. At last, an example was performed to show that the new method is how to work effectively.

    Access

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    Check availability in my library
    Order at Subito €

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    Title:

    A novel method of state identification sequences generation for testing communication protocols modeled as extended finite state machines

    Contributors:

    Ting Shu, (author) / Shouqian Sun, (author) / Haining Wang, (author)

    Published in:

    2009 IEEE 10th International Conference on Computer-Aided Industrial Design & Conceptual Design ; 1121-1126

    Publication date:

    2009-11-01

    Size:

    211564 byte

    ISBN:

    978-1-4244-5268-2 , 978-1-4244-5266-8

    DOI:

    https://doi.org/10.1109/CAIDCD.2009.5374861

    Type of media:

    Conference paper

    Type of material:

    Electronic Resource

    Language:

    English

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