Self-Organized Wireless Sensor Network (SOWSN) for dense jungle applications
To facilitate wireless sensor networks deployment in dense jungle environments, the challenges of unreliable wireless communication links used for routing data between nodes and the gateway, and the limited battery energy available from the nodes must be overcome. In this paper, we introduce the S...
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2023
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| Online Access: | http://irep.iium.edu.my/107468/8/107468_Self-Organized%20Wireless%20Sensor%20Network%20%28SOWSN%29%20for%20Dense%20Jungle%20Applications%20_%20SCOPUS.pdf http://irep.iium.edu.my/107468/9/107468_Self-Organized_Wireless_Sensor_Network_SOWSN_for_Dense_Jungle_Applications.pdf http://irep.iium.edu.my/107468/ https://ieeexplore.ieee.org/document/10281366 |
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my.iium.irep.1074682023-12-07T03:25:13Z http://irep.iium.edu.my/107468/ Self-Organized Wireless Sensor Network (SOWSN) for dense jungle applications Hakim, Galang Persada Nurani Habaebi, Mohamed Hadi Islam, Md. Rafiqul Alghaihab, Abdullah Yusoff, Siti Hajar Adesta, Erry Yulian Triblas TK7800 Electronics. Computer engineering. Computer hardware. Photoelectronic devices To facilitate wireless sensor networks deployment in dense jungle environments, the challenges of unreliable wireless communication links used for routing data between nodes and the gateway, and the limited battery energy available from the nodes must be overcome. In this paper, we introduce the SelfOrganized Wireless Sensor Network (SOWSN) to overcome these challenges. To develop the traits needed for such SOWSN nodes, three types of computational intelligence mechanisms have been featured in the design. The first feature is the introduction of Multi Criteria Decision Making (MCDM) algorithm with simple Additive Weight (SAW) function for clustering the SOWSN nodes. The second feature is the introduction of the fuzzy logic ANFIS-optimized Near Ground Propagation Model to predict the wireless transmission link quality and power transfer between transmitters. The third feature is the introduction of the (Levenberg Marquardt artificial neural network (LM-ANN) for Adaptive Dynamic Power Control to further optimize the transmitter power levels, radio modulation, Spreading Factor configurations, and settings of the employed SOWSN LoRaWAN nodes based on predicted wireless transmission link quality parameters. The introduced features were extensively evaluated and analyzed using simulation and empirical measurements. Using clustering, near-ground propagation, and adaptive transmission power control features, a robust wireless data transmission system was built while simultaneously providing power conservation in SOWSN operation. The payload loss can be improved using SAW clustering from 1275 bytes to 5100 bytes. The result of power conservation can be seen from the reduction of transmission power in SOWSN nodes with the increase of transmission time (TOA) as its side effect. With the original power transmission at 20 dBm, original TOA time at 96.832 milliseconds for all nodes, and SNR 3 as input, transmission power was reduced to 12.76 dBm and the TOA increased to 346.78 milliseconds for all nodes. IEEE 2023-10-11 Article PeerReviewed application/pdf en http://irep.iium.edu.my/107468/8/107468_Self-Organized%20Wireless%20Sensor%20Network%20%28SOWSN%29%20for%20Dense%20Jungle%20Applications%20_%20SCOPUS.pdf application/pdf en http://irep.iium.edu.my/107468/9/107468_Self-Organized_Wireless_Sensor_Network_SOWSN_for_Dense_Jungle_Applications.pdf Hakim, Galang Persada Nurani and Habaebi, Mohamed Hadi and Islam, Md. Rafiqul and Alghaihab, Abdullah and Yusoff, Siti Hajar and Adesta, Erry Yulian Triblas (2023) Self-Organized Wireless Sensor Network (SOWSN) for dense jungle applications. IEEE Access. E-ISSN 2169-3536 https://ieeexplore.ieee.org/document/10281366 10.1109/ACCESS.2023.3323035 |
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TK7800 Electronics. Computer engineering. Computer hardware. Photoelectronic devices Hakim, Galang Persada Nurani Habaebi, Mohamed Hadi Islam, Md. Rafiqul Alghaihab, Abdullah Yusoff, Siti Hajar Adesta, Erry Yulian Triblas Self-Organized Wireless Sensor Network (SOWSN) for dense jungle applications |
| description |
To facilitate wireless sensor networks deployment in dense jungle environments, the challenges
of unreliable wireless communication links used for routing data between nodes and the gateway, and the
limited battery energy available from the nodes must be overcome. In this paper, we introduce the SelfOrganized Wireless Sensor Network (SOWSN) to overcome these challenges. To develop the traits needed
for such SOWSN nodes, three types of computational intelligence mechanisms have been featured in the
design. The first feature is the introduction of Multi Criteria Decision Making (MCDM) algorithm with
simple Additive Weight (SAW) function for clustering the SOWSN nodes. The second feature is the
introduction of the fuzzy logic ANFIS-optimized Near Ground Propagation Model to predict the wireless
transmission link quality and power transfer between transmitters. The third feature is the introduction of the
(Levenberg Marquardt artificial neural network (LM-ANN) for Adaptive Dynamic Power Control to further
optimize the transmitter power levels, radio modulation, Spreading Factor configurations, and settings of the
employed SOWSN LoRaWAN nodes based on predicted wireless transmission link quality parameters. The
introduced features were extensively evaluated and analyzed using simulation and empirical measurements.
Using clustering, near-ground propagation, and adaptive transmission power control features, a robust
wireless data transmission system was built while simultaneously providing power conservation in SOWSN
operation. The payload loss can be improved using SAW clustering from 1275 bytes to 5100 bytes. The result
of power conservation can be seen from the reduction of transmission power in SOWSN nodes with the
increase of transmission time (TOA) as its side effect. With the original power transmission at 20 dBm,
original TOA time at 96.832 milliseconds for all nodes, and SNR 3 as input, transmission power was reduced
to 12.76 dBm and the TOA increased to 346.78 milliseconds for all nodes. |
| format |
Article |
| author |
Hakim, Galang Persada Nurani Habaebi, Mohamed Hadi Islam, Md. Rafiqul Alghaihab, Abdullah Yusoff, Siti Hajar Adesta, Erry Yulian Triblas |
| author_facet |
Hakim, Galang Persada Nurani Habaebi, Mohamed Hadi Islam, Md. Rafiqul Alghaihab, Abdullah Yusoff, Siti Hajar Adesta, Erry Yulian Triblas |
| author_sort |
Hakim, Galang Persada Nurani |
| title |
Self-Organized Wireless Sensor Network (SOWSN) for dense jungle applications |
| title_short |
Self-Organized Wireless Sensor Network (SOWSN) for dense jungle applications |
| title_full |
Self-Organized Wireless Sensor Network (SOWSN) for dense jungle applications |
| title_fullStr |
Self-Organized Wireless Sensor Network (SOWSN) for dense jungle applications |
| title_full_unstemmed |
Self-Organized Wireless Sensor Network (SOWSN) for dense jungle applications |
| title_sort |
self-organized wireless sensor network (sowsn) for dense jungle applications |
| publisher |
IEEE |
| publishDate |
2023 |
| url |
http://irep.iium.edu.my/107468/8/107468_Self-Organized%20Wireless%20Sensor%20Network%20%28SOWSN%29%20for%20Dense%20Jungle%20Applications%20_%20SCOPUS.pdf http://irep.iium.edu.my/107468/9/107468_Self-Organized_Wireless_Sensor_Network_SOWSN_for_Dense_Jungle_Applications.pdf http://irep.iium.edu.my/107468/ https://ieeexplore.ieee.org/document/10281366 |
| _version_ |
1787131881581445120 |