08-03-2017, 09:59 AM
Due to the increasing complexity of embedded systems and their real-time reliability and capacity requirements, support methods are needed to assist designers and testers at different stages of the development cycle. In areas such network protocol testing the automatic generation of the test has been used successfully. Here, the extended finite state machine method is applied to embedded systems.
Fault models are offered for testing and analysis of test results to automate the detection of errors. The underlying concept and the application of an innovative approach for the development of an integrated diagnostic system from integrated systems to a primary system architecture. The approach is based on the use of a set of automated diagnostic tools. This set of tools allows the main system designer to design an embedded and off-line diagnostic capability simultaneously with the main system design. Using the toolkit, the designer makes exchanges and generates a diagnostic software module at runtime. The discussion of the attributes and operation of the automated diagnostic toolkit focuses on its application to a modern submarine vessel control system.
Fault models are offered for testing and analysis of test results to automate the detection of errors. The underlying concept and the application of an innovative approach for the development of an integrated diagnostic system from integrated systems to a primary system architecture. The approach is based on the use of a set of automated diagnostic tools. This set of tools allows the main system designer to design an embedded and off-line diagnostic capability simultaneously with the main system design. Using the toolkit, the designer makes exchanges and generates a diagnostic software module at runtime. The discussion of the attributes and operation of the automated diagnostic toolkit focuses on its application to a modern submarine vessel control system.