User interface for Validation of power control algorithms in a TRIGA reactor

Research output: Contribution to report/book/conference proceedingsIn-proceedings paper

Standard

User interface for Validation of power control algorithms in a TRIGA reactor. / benitez, Jorge; Ramirez, Cesar; Ruan, Da; Maes, Dirk (Peer reviewer).

Applied Artificial Intelligence. Vol. 1 Singapore, Singapore, 2006. p. 985-992.

Research output: Contribution to report/book/conference proceedingsIn-proceedings paper

Harvard

benitez, J, Ramirez, C, Ruan, D & Maes, D 2006, User interface for Validation of power control algorithms in a TRIGA reactor. in Applied Artificial Intelligence. vol. 1, Singapore, Singapore, pp. 985-992, Applied Artificial Intelligence, Genova, Italy, 2006-08-29.

APA

benitez, J., Ramirez, C., Ruan, D., & Maes, D. (2006). User interface for Validation of power control algorithms in a TRIGA reactor. In Applied Artificial Intelligence (Vol. 1, pp. 985-992). Singapore, Singapore.

Vancouver

benitez J, Ramirez C, Ruan D, Maes D. User interface for Validation of power control algorithms in a TRIGA reactor. In Applied Artificial Intelligence. Vol. 1. Singapore, Singapore. 2006. p. 985-992

Author

benitez, Jorge ; Ramirez, Cesar ; Ruan, Da ; Maes, Dirk. / User interface for Validation of power control algorithms in a TRIGA reactor. Applied Artificial Intelligence. Vol. 1 Singapore, Singapore, 2006. pp. 985-992

Bibtex - Download

@inproceedings{0495d1cd90994477a6074b2b0917cd6d,
title = "User interface for Validation of power control algorithms in a TRIGA reactor",
abstract = "The development of a user interface whose main purpose is the testing of new power control algorithms in a TRIGA Mark III reactor is presented. The interface is fully compatible with the current computing environment of the reactor’s operating digital console. The interface, developed in Visual Basic, has been conceived as an aid tool in the testing and validation of new and existing algorithms for the ascent, regulation and decrease of the reactor power. The interface calls a DLL file that contains the control program, makes available to the user the plant and controller parameters, and displays some of the key variables of the closed loop system. The system also displays the condition of the reactor with respect to the nuclear safety constraints imposed by the Mexican Nuclear Regulatory Commission (CNSNS). One of the algorithms under test is based on a control scheme that uses variable state feedback gain and prediction of the state gain that guarantee the compliance of the safety constraints.",
keywords = "user interface, power control, nuclear reactors, TRIGA reactor",
author = "Jorge benitez and Cesar Ramirez and Da Ruan and Dirk Maes",
note = "Score = 1",
year = "2006",
month = "8",
language = "English",
isbn = "978-981-256-690-4",
volume = "1",
pages = "985--992",
booktitle = "Applied Artificial Intelligence",

}

RIS - Download

TY - GEN

T1 - User interface for Validation of power control algorithms in a TRIGA reactor

AU - benitez, Jorge

AU - Ramirez, Cesar

AU - Ruan, Da

A2 - Maes, Dirk

N1 - Score = 1

PY - 2006/8

Y1 - 2006/8

N2 - The development of a user interface whose main purpose is the testing of new power control algorithms in a TRIGA Mark III reactor is presented. The interface is fully compatible with the current computing environment of the reactor’s operating digital console. The interface, developed in Visual Basic, has been conceived as an aid tool in the testing and validation of new and existing algorithms for the ascent, regulation and decrease of the reactor power. The interface calls a DLL file that contains the control program, makes available to the user the plant and controller parameters, and displays some of the key variables of the closed loop system. The system also displays the condition of the reactor with respect to the nuclear safety constraints imposed by the Mexican Nuclear Regulatory Commission (CNSNS). One of the algorithms under test is based on a control scheme that uses variable state feedback gain and prediction of the state gain that guarantee the compliance of the safety constraints.

AB - The development of a user interface whose main purpose is the testing of new power control algorithms in a TRIGA Mark III reactor is presented. The interface is fully compatible with the current computing environment of the reactor’s operating digital console. The interface, developed in Visual Basic, has been conceived as an aid tool in the testing and validation of new and existing algorithms for the ascent, regulation and decrease of the reactor power. The interface calls a DLL file that contains the control program, makes available to the user the plant and controller parameters, and displays some of the key variables of the closed loop system. The system also displays the condition of the reactor with respect to the nuclear safety constraints imposed by the Mexican Nuclear Regulatory Commission (CNSNS). One of the algorithms under test is based on a control scheme that uses variable state feedback gain and prediction of the state gain that guarantee the compliance of the safety constraints.

KW - user interface

KW - power control

KW - nuclear reactors

KW - TRIGA reactor

UR - http://ecm.sckcen.be/OTCS/llisapi.dll/open/ezp_33026

UR - http://ecm.sckcen.be/OTCS/llisapi.dll/open/ezp_33026_2

UR - http://ecm.sckcen.be/OTCS/llisapi.dll/open/ezp_33026_3

UR - http://knowledgecentre.sckcen.be/so2/bibref/3678

M3 - In-proceedings paper

SN - 978-981-256-690-4

VL - 1

SP - 985

EP - 992

BT - Applied Artificial Intelligence

CY - Singapore, Singapore

ER -

ID: 125257