NETWORK SUITABILITY STUDY FOR TRANSMISSION LINE SLOPE MONITORING USING GIS-BASED TECHNIQUE
Transmission line slope monitoring is crucial to the electricity utility company in ensuring an uninterruptable power supply to the public. Common practice in slope monitoring is by deploying appropriate sensors that can automatically detect displacement or anomalies of the slopes. Sensor data were...
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2023
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my.uniten.dspace-267142023-05-29T17:36:17Z NETWORK SUITABILITY STUDY FOR TRANSMISSION LINE SLOPE MONITORING USING GIS-BASED TECHNIQUE Mustafa I.S. Deros S.N.M. Din N.M. Haroun F.M.E. 26967833900 57188721836 9335429400 57218938188 Transmission line slope monitoring is crucial to the electricity utility company in ensuring an uninterruptable power supply to the public. Common practice in slope monitoring is by deploying appropriate sensors that can automatically detect displacement or anomalies of the slopes. Sensor data were collected electronically via wireless communications and distributed through a communication network to a centralized location (base station) for data processing. Such system relied heavily on communication stability at the slope area. However, in a challenging terrain, the communication tasked becomes daunting and raised the need to hop the data from one site to the other until a site with a telecommunication coverage is found. Hence, the requirement of optimized location determination is becoming an important measure. This study proposes a site suitability identification technique for base station placement in transmission line slope monitoring to ensure uninterrupted communications. The GIS-based technique using Weighted Linear Combination for generating a suitability map with standardized Fuzzy Membership functions and Analytical Hierarchy Process were designed and applied in this study. This had been done by assigning the weightage of each contributing factor such as the network coverage, slope, elevation and land use. A case study was conducted in Cameron Highland, Malaysia. From this study, 7 sites for base station location placement were identified and they can cover the length of the transmission line at the study area. For future study and application, this methodology can be used for other remote network suitability identification analysis. � School of Engineering, Taylor's University. Final 2023-05-29T09:36:17Z 2023-05-29T09:36:17Z 2022 Article 2-s2.0-85142414327 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85142414327&partnerID=40&md5=1e88f8c78cd77c6e03b8505d74ec6545 https://irepository.uniten.edu.my/handle/123456789/26714 17 5 3447 3459 Taylor's University Scopus |
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Transmission line slope monitoring is crucial to the electricity utility company in ensuring an uninterruptable power supply to the public. Common practice in slope monitoring is by deploying appropriate sensors that can automatically detect displacement or anomalies of the slopes. Sensor data were collected electronically via wireless communications and distributed through a communication network to a centralized location (base station) for data processing. Such system relied heavily on communication stability at the slope area. However, in a challenging terrain, the communication tasked becomes daunting and raised the need to hop the data from one site to the other until a site with a telecommunication coverage is found. Hence, the requirement of optimized location determination is becoming an important measure. This study proposes a site suitability identification technique for base station placement in transmission line slope monitoring to ensure uninterrupted communications. The GIS-based technique using Weighted Linear Combination for generating a suitability map with standardized Fuzzy Membership functions and Analytical Hierarchy Process were designed and applied in this study. This had been done by assigning the weightage of each contributing factor such as the network coverage, slope, elevation and land use. A case study was conducted in Cameron Highland, Malaysia. From this study, 7 sites for base station location placement were identified and they can cover the length of the transmission line at the study area. For future study and application, this methodology can be used for other remote network suitability identification analysis. � School of Engineering, Taylor's University. |
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26967833900 |
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26967833900 Mustafa I.S. Deros S.N.M. Din N.M. Haroun F.M.E. |
| format |
Article |
| author |
Mustafa I.S. Deros S.N.M. Din N.M. Haroun F.M.E. |
| spellingShingle |
Mustafa I.S. Deros S.N.M. Din N.M. Haroun F.M.E. NETWORK SUITABILITY STUDY FOR TRANSMISSION LINE SLOPE MONITORING USING GIS-BASED TECHNIQUE |
| author_sort |
Mustafa I.S. |
| title |
NETWORK SUITABILITY STUDY FOR TRANSMISSION LINE SLOPE MONITORING USING GIS-BASED TECHNIQUE |
| title_short |
NETWORK SUITABILITY STUDY FOR TRANSMISSION LINE SLOPE MONITORING USING GIS-BASED TECHNIQUE |
| title_full |
NETWORK SUITABILITY STUDY FOR TRANSMISSION LINE SLOPE MONITORING USING GIS-BASED TECHNIQUE |
| title_fullStr |
NETWORK SUITABILITY STUDY FOR TRANSMISSION LINE SLOPE MONITORING USING GIS-BASED TECHNIQUE |
| title_full_unstemmed |
NETWORK SUITABILITY STUDY FOR TRANSMISSION LINE SLOPE MONITORING USING GIS-BASED TECHNIQUE |
| title_sort |
network suitability study for transmission line slope monitoring using gis-based technique |
| publisher |
Taylor's University |
| publishDate |
2023 |
| _version_ |
1806427547033927680 |
| score |
13.188404 |