Automated Real-Time Testing for Embedded Control Systems: Difference between revisions

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Created page with "Title: Automated Real-Time Testing for Embedded Control Systems Research Question: How can we develop an automated real-time testing system for embedded control systems using commercially available off-the-shelf hardware and software? Methodology: The researchers used the Vali/Test Pro testing methodology to structure the testing for a Personnel Safety System (PSS) with large quantities of requirements and test cases. They decomposed the system requirement documents in..."
 
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Title: Automated Real-Time Testing for Embedded Control Systems
Title: Automated Real-Time Testing for Embedded Control Systems


Research Question: How can we develop an automated real-time testing system for embedded control systems using commercially available off-the-shelf hardware and software?
Research Question: How can we develop an automated real-time testing system for embedded control systems using off-the-shelf hardware and software?


Methodology: The researchers used the Vali/Test Pro testing methodology to structure the testing for a Personnel Safety System (PSS) with large quantities of requirements and test cases. They decomposed the system requirement documents into high, intermediate, and detail level requirements, and validation procedures into testing units called builds, test runs, and test cases. A validation matrix was designed to handle over 150 test cases and requirements, measuring the PSS system's test coverage.
Methodology: The researchers used the Vali/Test Pro testing methodology to structure the testing for a personnel safety system with large quantities of requirements and test cases. They decomposed the system requirement documents into high, intermediate, and detail level requirements, and then mapped these levels to their respective unit level of test using a specially constructed validation matrix. This matrix was designed to handle over 150 test cases and requirements.


Results: The researchers developed an Automated Real-Time Test System (ARTTS) capable of performing complete black-box testing in real-time for Embedded PLC Based Control Systems. They successfully tested the PSS system, which is responsible for personnel safety in potentially hazardous areas.
Results: They developed an Automated Real-Time Test System (ARTTS) that is capable of performing complete black box testing in real-time for Embedded PLC Based Control Systems. The system was designed to test a Personnel Safety System (PSS) located at the Advanced Photon Source at Argonne National Laboratory.


Implications: This research demonstrates that it is possible to develop an automated real-time testing system for embedded control systems using commercially available off-the-shelf hardware and software. This approach can save time and resources, making testing more accessible and efficient for similar systems.
Implications: This research provides a cost-effective and time-saving solution for developing automated real-time testing systems for embedded control systems. By using off-the-shelf hardware and software, engineers and scientists can avoid the customized software and hardware that can be expensive and time consuming to develop. The ARTTS system can be scaled to test a variety of systems, making it a versatile tool for the testing industry.


Link to Article: https://arxiv.org/abs/0111005v1
Link to Article: https://arxiv.org/abs/0111005v3
Authors:  
Authors:  
arXiv ID: 0111005v1
arXiv ID: 0111005v3


[[Category:Computer Science]]
[[Category:Computer Science]]
[[Category:Time]]
[[Category:Testing]]
[[Category:Testing]]
[[Category:System]]
[[Category:System]]
[[Category:Test]]
[[Category:Test]]
[[Category:Time]]
[[Category:Systems]]
[[Category:Real]]

Latest revision as of 03:25, 24 December 2023

Title: Automated Real-Time Testing for Embedded Control Systems

Research Question: How can we develop an automated real-time testing system for embedded control systems using off-the-shelf hardware and software?

Methodology: The researchers used the Vali/Test Pro testing methodology to structure the testing for a personnel safety system with large quantities of requirements and test cases. They decomposed the system requirement documents into high, intermediate, and detail level requirements, and then mapped these levels to their respective unit level of test using a specially constructed validation matrix. This matrix was designed to handle over 150 test cases and requirements.

Results: They developed an Automated Real-Time Test System (ARTTS) that is capable of performing complete black box testing in real-time for Embedded PLC Based Control Systems. The system was designed to test a Personnel Safety System (PSS) located at the Advanced Photon Source at Argonne National Laboratory.

Implications: This research provides a cost-effective and time-saving solution for developing automated real-time testing systems for embedded control systems. By using off-the-shelf hardware and software, engineers and scientists can avoid the customized software and hardware that can be expensive and time consuming to develop. The ARTTS system can be scaled to test a variety of systems, making it a versatile tool for the testing industry.

Link to Article: https://arxiv.org/abs/0111005v3 Authors: arXiv ID: 0111005v3

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