Development of a facility for an advance competency in electrical engineering

This paper discussed the development of a facility for an advance competency in Electrical Engineering. The development was to fulfill the goal of the engineering education in an engineering college. The facility provided a facility to perform electrical network analysis, an industry size electrical...

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Main Authors: Tuan Abdullah T.A.R.B., Hamzah N.I.B.
Other Authors: 56594684600
Format: Conference paper
Published: 2023
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spelling my.uniten.dspace-308162023-12-29T15:53:52Z Development of a facility for an advance competency in electrical engineering Tuan Abdullah T.A.R.B. Hamzah N.I.B. 56594684600 35752794600 Engineering competency Knowledge development Power system asset management Asset management Construction industry Electrical engineering Electronics industry Engineering Engineering education Facilities Knowledge engineering Maintenance Project management Students Sustainable development Analytical tool Communication device Construction management Construction projects Educational program Electrical networks Electricity supply industries Electronic signals Engineering colleges Engineering Competencies Engineering design Fault analysis Fundamental component Global sustainability In-plants Industrial problem Knowledge development Load flow Maintenance analysis Maintenance management Network analysis Power system assets Test network Electric network analysis This paper discussed the development of a facility for an advance competency in Electrical Engineering. The development was to fulfill the goal of the engineering education in an engineering college. The facility provided a facility to perform electrical network analysis, an industry size electrical network database and electronics communication devices. Firstly, this paper describes the methodology in formulating the advance competency and followed by a review on fundamental components of advance competency in electrical engineering including the network analysis, construction management and maintenance management. Subsequently, this paper presented a proposed method to assess the level of competency in engineering based on a supervised learning, where students worked to solve themes relevant to industrial problems. The problem is modeled by the test network in a database and electronic signals from the communication devices. Then the solution is formulated and tested based on the network analytical tools such as load flow, contingency, fault analysis, construction project maps and maintenance analysis. In conclusion, this paper discussed the competency gained by the students which include the evaluation of engineering design, assets maintenance, construction management and optimized decision in plant life management. The facility benefits the Electricity Supply Industry community and enriches the tertiary educational programs by exposing students to relevant competency towards global sustainability through efficient electrical network. �2009 IEEE. Final 2023-12-29T07:53:52Z 2023-12-29T07:53:52Z 2009 Conference paper 10.1109/ICEENVIRON.2009.5398606 2-s2.0-77949607615 https://www.scopus.com/inward/record.uri?eid=2-s2.0-77949607615&doi=10.1109%2fICEENVIRON.2009.5398606&partnerID=40&md5=3fbd20243e7737602145337b6f51d0c5 https://irepository.uniten.edu.my/handle/123456789/30816 5398606 469 473 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Engineering competency
Knowledge development
Power system asset management
Asset management
Construction industry
Electrical engineering
Electronics industry
Engineering
Engineering education
Facilities
Knowledge engineering
Maintenance
Project management
Students
Sustainable development
Analytical tool
Communication device
Construction management
Construction projects
Educational program
Electrical networks
Electricity supply industries
Electronic signals
Engineering colleges
Engineering Competencies
Engineering design
Fault analysis
Fundamental component
Global sustainability
In-plants
Industrial problem
Knowledge development
Load flow
Maintenance analysis
Maintenance management
Network analysis
Power system assets
Test network
Electric network analysis
spellingShingle Engineering competency
Knowledge development
Power system asset management
Asset management
Construction industry
Electrical engineering
Electronics industry
Engineering
Engineering education
Facilities
Knowledge engineering
Maintenance
Project management
Students
Sustainable development
Analytical tool
Communication device
Construction management
Construction projects
Educational program
Electrical networks
Electricity supply industries
Electronic signals
Engineering colleges
Engineering Competencies
Engineering design
Fault analysis
Fundamental component
Global sustainability
In-plants
Industrial problem
Knowledge development
Load flow
Maintenance analysis
Maintenance management
Network analysis
Power system assets
Test network
Electric network analysis
Tuan Abdullah T.A.R.B.
Hamzah N.I.B.
Development of a facility for an advance competency in electrical engineering
description This paper discussed the development of a facility for an advance competency in Electrical Engineering. The development was to fulfill the goal of the engineering education in an engineering college. The facility provided a facility to perform electrical network analysis, an industry size electrical network database and electronics communication devices. Firstly, this paper describes the methodology in formulating the advance competency and followed by a review on fundamental components of advance competency in electrical engineering including the network analysis, construction management and maintenance management. Subsequently, this paper presented a proposed method to assess the level of competency in engineering based on a supervised learning, where students worked to solve themes relevant to industrial problems. The problem is modeled by the test network in a database and electronic signals from the communication devices. Then the solution is formulated and tested based on the network analytical tools such as load flow, contingency, fault analysis, construction project maps and maintenance analysis. In conclusion, this paper discussed the competency gained by the students which include the evaluation of engineering design, assets maintenance, construction management and optimized decision in plant life management. The facility benefits the Electricity Supply Industry community and enriches the tertiary educational programs by exposing students to relevant competency towards global sustainability through efficient electrical network. �2009 IEEE.
author2 56594684600
author_facet 56594684600
Tuan Abdullah T.A.R.B.
Hamzah N.I.B.
format Conference paper
author Tuan Abdullah T.A.R.B.
Hamzah N.I.B.
author_sort Tuan Abdullah T.A.R.B.
title Development of a facility for an advance competency in electrical engineering
title_short Development of a facility for an advance competency in electrical engineering
title_full Development of a facility for an advance competency in electrical engineering
title_fullStr Development of a facility for an advance competency in electrical engineering
title_full_unstemmed Development of a facility for an advance competency in electrical engineering
title_sort development of a facility for an advance competency in electrical engineering
publishDate 2023
_version_ 1806425835279745024
score 13.214268