Syam Ryadi, Muhamad Alif (2025) Komunikasi Multi-Hop Pada Multinode Sensor Dengan Adaptasi Arsitektur Atom Bohr Untuk Memperpanjang Jangkauan Wireless. Other thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Penelitian ini bertujuan mengembangkan multinode sensor berbasis arsitektur atom Bohr dengan metode multi-hop untuk memperluas jangkauan komunikasi Wi-Fi antar node-sensor dalam sistem monitoring. Dengan metode komunikasi multi-hop, setiap node sensor nantinya akan berkomunikasi satu sama lain, dimulai dari Node E akan mengirimkan pesan berupa hasil pembacaan ke Node D, lalu Node D mengirimkan hasil pembacaan beserta pesan dari Node E ke Node C, dan seterusnya sampai ke Node Base Station. Inilah yang menjadi hal utama dalam memperpanjang jangkauan komunikasi, yaitu dengan metode komunikasi multi-hop antar sensor. Struktur berbasis arsitektur atom Bohr dirancang untuk mendukung komunikasi hierarkis dengan pengalamatan yang disesuaikan berdasarkan lapisan arsitektur atom Bohr melalui sistem gateway tunggal. Pendekatan ini diterapkan pada miniplant jaringan air, dengan fokus pada pemantauan parameter seperti tekanan, suhu, kecepatan aliran, dan kekeruhan. Hasil penelitian menunjukkan bahwa multinode sensor ini efektif meningkatkan area cakupan yang akan dimonitoring, dengan menggunakan arsitektur atom Bohr area cakupan monitoring dapat mencapai hingga ± 90 m menggunakan 4 node sensor dengan 3 lapisan/layer. Hal yang perlu diperhatikan adalah latensi/delay dari masing masing node sensor karena semakin banyak lapisan/layer, maka latensi/delay akan semakin besar. Pada hasil pengujian arsitektur yang telah didesain, latensi yang dihasilkan dari node sensor terjauh yaitu 124 ms dengan 20% dataloss. Hasil pengukuran yang terbaca oleh setiap node sensor tidak mengalami perubahan pada saat komunikasi multi-hop berlangsung, jadi apa yang diukur oleh setiap node sensor akan sama dengan apa yang dibaca atau ditampilkan pada Base Station.
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This research aims to develop a multinode sensor based on the Bohr atom architecture with a multi-hop method to extend the Wi-Fi communication range between sensor nodes in a monitoring system. Using the multi-hop communication method, each sensor node will communicate with one another, starting with Node E sending a message containing the reading results to Node D, then Node D forwarding the reading results along with the message from Node E to Node C, and so on until it reaches the Base Station. This is the main approach to extending the communication range—using multi-hop communication between sensors. The Bohr atom architecture-based structure is designed to support hierarchical communication with addressing tailored based on the layers of the Bohr atom architecture through a single gateway system. This approach is applied to a mini-plant water network, focusing on monitoring parameters such as pressure, temperature, flow rate, and turbidity. The results show that this multinode sensor effectively increases the monitoring coverage area, with the Bohr atom architecture enabling a coverage area of up to ± 90 meters using 4 sensor nodes and 3 layers. A key consideration is the latency/delay of each sensor node, as more layers will lead to greater latency/delay. In the tests of the designed architecture, the latency of the farthest sensor node was 124 ms with 20% data loss. The measurement results from each sensor node did not change during multi-hop communication, so what was measured by each sensor node was the same as what was displayed or read at the Base Station.
| Item Type: | Thesis (Other) |
|---|---|
| Uncontrolled Keywords: | Multinode, Sensor Nirkabel, Atom Bohr, Monitoring, Jaringan Sensor, Multinode, Wireless Sensor, Bohr’s Atom, Monitoring, Sensor Network. |
| Subjects: | T Technology > T Technology (General) T Technology > T Technology (General) > T57.5 Data Processing T Technology > T Technology (General) > T58.62 Decision support systems |
| Divisions: | Faculty of Vocational > Instrumentation Engineering |
| Depositing User: | Muhamad Alif Syam Ryadi |
| Date Deposited: | 28 Jul 2025 08:15 |
| Last Modified: | 28 Jul 2025 08:15 |
| URI: | http://repository.its.ac.id/id/eprint/121989 |
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