Abstract
We found essential problems followed by digitalizing of instrumentation and control. A scheme is divided into hardware and software to resolve these problems. We have analyzed the hardware V and V methodologies about common mode failure, commercial grade dedication process and electromagnetic compatibility. We have developed several guidelines, the software classification guideline, the quality assurance handbook for the software in digital I and C, the software V and V planning guideline, and the software safety guideline. And then, we have established the integrated environment for the safety-critical software based on the Computer Aided Software Engineering (CASE) tools. We have also surveyed a trend and application case of test facility for establishment of functional requirements. Input/output interface which connects among the host computer and developed target and panel are designed and manufactured using UXI bus. The developed functional test facility is used for test and validate the automatic start-up intelligent control system, the dynamic alarm system, the accident identification system using hidden Markov model, and the intelligent logic tracking system. The result of evaluation of the above systems shows the functional test facility performance is sufficient in normal operating and transient conditions. (author). 24 tabs., 59 figs.
Citation Formats
Kwon, Kee Choon, Ham, Chang Shik, Lee, Jang Soo, Kim, Jang Yeol, Song, Soon Ja, Kim, Jung Taek, Park, Won Man, Lee, Dong Young, Eom, Heung Seop, and Park, Kee Yong.
The development of advanced instrumentation and control technology. The development of verification and validation technology for instrumentation and control in NPPs.
Korea, Republic of: N. p.,
1997.
Web.
Kwon, Kee Choon, Ham, Chang Shik, Lee, Jang Soo, Kim, Jang Yeol, Song, Soon Ja, Kim, Jung Taek, Park, Won Man, Lee, Dong Young, Eom, Heung Seop, & Park, Kee Yong.
The development of advanced instrumentation and control technology. The development of verification and validation technology for instrumentation and control in NPPs.
Korea, Republic of.
Kwon, Kee Choon, Ham, Chang Shik, Lee, Jang Soo, Kim, Jang Yeol, Song, Soon Ja, Kim, Jung Taek, Park, Won Man, Lee, Dong Young, Eom, Heung Seop, and Park, Kee Yong.
1997.
"The development of advanced instrumentation and control technology. The development of verification and validation technology for instrumentation and control in NPPs."
Korea, Republic of.
@misc{etde_595322,
title = {The development of advanced instrumentation and control technology. The development of verification and validation technology for instrumentation and control in NPPs}
author = {Kwon, Kee Choon, Ham, Chang Shik, Lee, Jang Soo, Kim, Jang Yeol, Song, Soon Ja, Kim, Jung Taek, Park, Won Man, Lee, Dong Young, Eom, Heung Seop, and Park, Kee Yong}
abstractNote = {We found essential problems followed by digitalizing of instrumentation and control. A scheme is divided into hardware and software to resolve these problems. We have analyzed the hardware V and V methodologies about common mode failure, commercial grade dedication process and electromagnetic compatibility. We have developed several guidelines, the software classification guideline, the quality assurance handbook for the software in digital I and C, the software V and V planning guideline, and the software safety guideline. And then, we have established the integrated environment for the safety-critical software based on the Computer Aided Software Engineering (CASE) tools. We have also surveyed a trend and application case of test facility for establishment of functional requirements. Input/output interface which connects among the host computer and developed target and panel are designed and manufactured using UXI bus. The developed functional test facility is used for test and validate the automatic start-up intelligent control system, the dynamic alarm system, the accident identification system using hidden Markov model, and the intelligent logic tracking system. The result of evaluation of the above systems shows the functional test facility performance is sufficient in normal operating and transient conditions. (author). 24 tabs., 59 figs.}
place = {Korea, Republic of}
year = {1997}
month = {Jul}
}
title = {The development of advanced instrumentation and control technology. The development of verification and validation technology for instrumentation and control in NPPs}
author = {Kwon, Kee Choon, Ham, Chang Shik, Lee, Jang Soo, Kim, Jang Yeol, Song, Soon Ja, Kim, Jung Taek, Park, Won Man, Lee, Dong Young, Eom, Heung Seop, and Park, Kee Yong}
abstractNote = {We found essential problems followed by digitalizing of instrumentation and control. A scheme is divided into hardware and software to resolve these problems. We have analyzed the hardware V and V methodologies about common mode failure, commercial grade dedication process and electromagnetic compatibility. We have developed several guidelines, the software classification guideline, the quality assurance handbook for the software in digital I and C, the software V and V planning guideline, and the software safety guideline. And then, we have established the integrated environment for the safety-critical software based on the Computer Aided Software Engineering (CASE) tools. We have also surveyed a trend and application case of test facility for establishment of functional requirements. Input/output interface which connects among the host computer and developed target and panel are designed and manufactured using UXI bus. The developed functional test facility is used for test and validate the automatic start-up intelligent control system, the dynamic alarm system, the accident identification system using hidden Markov model, and the intelligent logic tracking system. The result of evaluation of the above systems shows the functional test facility performance is sufficient in normal operating and transient conditions. (author). 24 tabs., 59 figs.}
place = {Korea, Republic of}
year = {1997}
month = {Jul}
}