TY - GEN
T1 - Incremental protocol test method
T2 - Proceedings of the Second International Conference on Systems Integration - ICSI'92
AU - Huang, Chung-Ming
AU - Liu, Ming T.
PY - 1992/12/1
Y1 - 1992/12/1
N2 - To ensure that the implementation of a communication protocol conforms to its specification, a protocol test process is invoked to check for conformance. In this paper, an incremental protocol test method is proposed. The incremental protocol test method is based on modifying test architectures and enhancing Formal Description Techniques' (FDTs) functionalities so that they are powerful enough to be used in both the design phase and the test phase. To provide for direct control and observation, the proposed method has (1) a single high level formal representation mechanism, which is currently the OPS5 production system, to be used in both the design phase and the test phase; (2) a Test sequence Generator and state Monitor (TGM) that is added to the local environment. In this way, protocol test sequence generation is formally represented in production rules by combining those related elements in the formal protocol specification with additional elements used for controllability and observability in the test process. The inter-communication between the module of test sequence generation and external testers is specified abstractly and its realization in procedure-based computations relies on the host environment of the Implementation Under Testing (IUT) and external testers.
AB - To ensure that the implementation of a communication protocol conforms to its specification, a protocol test process is invoked to check for conformance. In this paper, an incremental protocol test method is proposed. The incremental protocol test method is based on modifying test architectures and enhancing Formal Description Techniques' (FDTs) functionalities so that they are powerful enough to be used in both the design phase and the test phase. To provide for direct control and observation, the proposed method has (1) a single high level formal representation mechanism, which is currently the OPS5 production system, to be used in both the design phase and the test phase; (2) a Test sequence Generator and state Monitor (TGM) that is added to the local environment. In this way, protocol test sequence generation is formally represented in production rules by combining those related elements in the formal protocol specification with additional elements used for controllability and observability in the test process. The inter-communication between the module of test sequence generation and external testers is specified abstractly and its realization in procedure-based computations relies on the host environment of the Implementation Under Testing (IUT) and external testers.
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M3 - Conference contribution
AN - SCOPUS:0026971325
SN - 0818626976
T3 - Proceedings of the Second International Conference on Systems Integration
SP - 499
EP - 508
BT - Proceedings of the Second International Conference on Systems Integration
PB - Publ by IEEE
Y2 - 15 June 1992 through 18 June 1992
ER -