Title :
Undetected faults in protocol testing
Author :
Motteler, Howard ; Chung, Anthony ; Sidhu, Deepinder
Author_Institution :
Dept. of Comput. Sci., Maryland Univ., Baltimore, MD, USA
fDate :
8/1/1995 12:00:00 AM
Abstract :
We investigate ways in which UIO-based conformance testing can fail to catch faults, including single and multiple faults, faults with extra or missing states, and faults at both the test sequence and subsequence levels. Given a particular error and test method, the error is masked if it is not detected by the test method. Many forms of fault masking are possible, and all test methods we have considered exhibit some forms of masking. Faults captured at the test subsequence level may become masked at the sequence level, and vice versa. Fault masking has been used to argue relative merits of various testing methods. Because of the pervasiveness of masking, we cannot use masking alone to argue that one UIO-based test method is superior to another. Information about the density of masked faults among all faults is needed to evaluate a test method
Keywords :
conformance testing; fault diagnosis; protocols; sequences; testing; UIO-based conformance testing; communication networks; extra states; fault masking; masked faults density; missing states; multiple faults; protocol testing; single faults; test method; test sequence level; test subsequence level; undetected faults; Character generation; Communication networks; Communications Society; Computer science; Fault detection; Helium; Information systems; Optimization methods; Protocols; Testing;
Journal_Title :
Communications, IEEE Transactions on
