Network Signal Coverage Expansion Planning WLAN Outdoor with 4-C Scenario Approach at Telkom University
Enhancing internet accessibility on campus is vital for both academic purposes and general internet usage. This research aims to expand the outdoor Wi-Fi coverage at Telkom University, taking into account wireless signal propagation, infrastructure, and network structure. The planning process includ...
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| Format: | Article |
| Language: | English |
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Institut Teknologi Dirgantara Adisutjipto
2025-02-01
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| Series: | Aviation Electronics, Information Technology, Telecommunications, Electricals, Controls |
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| Online Access: | https://ejournals.itda.ac.id/index.php/avitec/article/view/2711 |
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| author | Rayhan Sidiq Kaffa Uke Kurniawan Usman Zhikya Sekar Lutfi Purnomo Rangga Fadhillah Akbar Sakti Putro Wisetyo |
| author_facet | Rayhan Sidiq Kaffa Uke Kurniawan Usman Zhikya Sekar Lutfi Purnomo Rangga Fadhillah Akbar Sakti Putro Wisetyo |
| author_sort | Rayhan Sidiq Kaffa |
| collection | DOAJ |
| description | Enhancing internet accessibility on campus is vital for both academic purposes and general internet usage. This research aims to expand the outdoor Wi-Fi coverage at Telkom University, taking into account wireless signal propagation, infrastructure, and network structure. The planning process includes conducting a walk test to evaluate signal coverage, simulating signal and interference, calculating the link budget (including pathloss, RSSI, and EIRP), and determining the Bill of Quantities (BoQ). The analysis of these simulations and calculations leads to informed planning recommendations. By applying the 4-C scenario approach, the study demonstrates that this method effectively covers the entire target area with a minimum RSSI of -75 dBm. There is no interference in the 2.4 GHz band, although co-channel interference occurs in the 5 GHz band. The RSSI consistently stays above -75 dBm, with the lowest measurement being -74 dBm over 200 meters in the 2.4 GHz band. EIRP values are within Indonesia's standard limit of 36 dBm, with a peak value of 33 dBm in the 5 GHz band. The total length of transmission cables used is 1628.3 meters, and the total BoQ amounts to Rp. 384,964,540. |
| format | Article |
| id | doaj-art-0d14a0a833c6423a88cd1c62d20cb573 |
| institution | OA Journals |
| issn | 2685-2381 2715-2626 |
| language | English |
| publishDate | 2025-02-01 |
| publisher | Institut Teknologi Dirgantara Adisutjipto |
| record_format | Article |
| series | Aviation Electronics, Information Technology, Telecommunications, Electricals, Controls |
| spelling | doaj-art-0d14a0a833c6423a88cd1c62d20cb5732025-08-20T01:59:21ZengInstitut Teknologi Dirgantara AdisutjiptoAviation Electronics, Information Technology, Telecommunications, Electricals, Controls2685-23812715-26262025-02-01718710210.28989/avitec.v7i1.27111034Network Signal Coverage Expansion Planning WLAN Outdoor with 4-C Scenario Approach at Telkom UniversityRayhan Sidiq Kaffa0Uke Kurniawan Usman1Zhikya Sekar Lutfi Purnomo2Rangga Fadhillah Akbar3Sakti Putro Wisetyo4Telkom UniversityTelkom UniversityTelkom UniversityTelkom UniversityTelkom UniversityEnhancing internet accessibility on campus is vital for both academic purposes and general internet usage. This research aims to expand the outdoor Wi-Fi coverage at Telkom University, taking into account wireless signal propagation, infrastructure, and network structure. The planning process includes conducting a walk test to evaluate signal coverage, simulating signal and interference, calculating the link budget (including pathloss, RSSI, and EIRP), and determining the Bill of Quantities (BoQ). The analysis of these simulations and calculations leads to informed planning recommendations. By applying the 4-C scenario approach, the study demonstrates that this method effectively covers the entire target area with a minimum RSSI of -75 dBm. There is no interference in the 2.4 GHz band, although co-channel interference occurs in the 5 GHz band. The RSSI consistently stays above -75 dBm, with the lowest measurement being -74 dBm over 200 meters in the 2.4 GHz band. EIRP values are within Indonesia's standard limit of 36 dBm, with a peak value of 33 dBm in the 5 GHz band. The total length of transmission cables used is 1628.3 meters, and the total BoQ amounts to Rp. 384,964,540.https://ejournals.itda.ac.id/index.php/avitec/article/view/2711wi-fi coveragerssilink budgetinterferenceeirp. |
| spellingShingle | Rayhan Sidiq Kaffa Uke Kurniawan Usman Zhikya Sekar Lutfi Purnomo Rangga Fadhillah Akbar Sakti Putro Wisetyo Network Signal Coverage Expansion Planning WLAN Outdoor with 4-C Scenario Approach at Telkom University Aviation Electronics, Information Technology, Telecommunications, Electricals, Controls wi-fi coverage rssi link budget interference eirp. |
| title | Network Signal Coverage Expansion Planning WLAN Outdoor with 4-C Scenario Approach at Telkom University |
| title_full | Network Signal Coverage Expansion Planning WLAN Outdoor with 4-C Scenario Approach at Telkom University |
| title_fullStr | Network Signal Coverage Expansion Planning WLAN Outdoor with 4-C Scenario Approach at Telkom University |
| title_full_unstemmed | Network Signal Coverage Expansion Planning WLAN Outdoor with 4-C Scenario Approach at Telkom University |
| title_short | Network Signal Coverage Expansion Planning WLAN Outdoor with 4-C Scenario Approach at Telkom University |
| title_sort | network signal coverage expansion planning wlan outdoor with 4 c scenario approach at telkom university |
| topic | wi-fi coverage rssi link budget interference eirp. |
| url | https://ejournals.itda.ac.id/index.php/avitec/article/view/2711 |
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