Lightweight and Energy-Aware Wireless Mesh Routing for Autonomic Internet of Things Networ

Rosyidi, Lukman; Asvial, Muhamad; Sari, Riri Fitri

doi:10.33832/ijca.2019.12.2.04

Cited by 4 publications

(2 citation statements)

References 8 publications

(10 reference statements)

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“…RFID (ratio frequency identification), is a typical noncontact IoT sensing technology [24][25]. It can read a large number of data through wireless communication with longdistance identification and fast speed.…”

Section: A Collection Of Human Target Images Based On Iotmentioning

confidence: 99%

Human Motion Target Posture Detection Algorithm Using Semi-Supervised Learning in Internet of Things

Chen

2021

IEEE Access

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In order to address the problem that the traditional human motion attitude detection process is easy to ignore the data calibration, which leads to the problems of long running time, low accuracy and poor detection effect, a human motion target attitude detection algorithm based on semi-supervised learning in the Internet of things environment is proposed. Firstly, human motion target images are collected using the IoT (Internet of things), human motion attitude features are extracted based on the eight-star model, and multi-features are fused to form image blocks of 17-dimensional feature vectors. Then, random fern classifiers are optimized and semi-supervised learning is used to calculate a large number of uncalibrated data in time domain, spatial domain and data. The classifier is trained to complete image block classification. Finally, the classifier parameters are updated iteratively to complete the attitude detection of human motion target. The results show that the proposed algorithm has high accuracy in human motion attitude extraction and multi-feature fusion, and has a high correct classification rate for different feature poses, as high as 92.5%. The average F value of human motion attitude detection is 0.95, the overlap ratio is high and the time is short. The overall performance is good.

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Section: A Collection Of Human Target Images Based On Iotmentioning

confidence: 99%

Human Motion Target Posture Detection Algorithm Using Semi-Supervised Learning in Internet of Things

Chen

2021

IEEE Access

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“…Berbagai algoritma yang diusulkan dalam metode optimasi routing mulai dari metode konvensional, metode pemrograman matematis maupun metode yang terinspirasi dari alam [4] seperti koloni semut [5], kunangkunang dan physarum polychepalum. Taro et al [6], memodelkan fenomena organisme physarum dalam model fisis dan matematis yang disebut basic physarum, kemudian menginspirasi Zhang et al untuk membuat protokol routing Physarum-inspired Routing Protocol (P-iRP) [7] dalam jaringan nirkabel yang memanfaatkan residu energi dan lokasi geografis dari node untuk menciptakan keseimbangan energi dalam jaringan. Rosyidi [8] mengembangkan protokol protokol P-iRP dengan menambahkan parameter tree level pada gateway sehingga aktifitas routing dapat dihitung jumlah minimum hop yang diperlukan untuk mengirim paket data ke gateway tujuan akhir, protokol ini disebut Robust Selection Physarum-inspired Routing Protocol (RS-PRP).…”

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Optimalisasi Routing dalam Jaringan Internet of Things Menggunakan Algoritma Physarum dan Kontrol Daya Adaptif

Laagu

2024

emitor

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Penelitian ini mengembangkan metode Physarum Routing Algorithm with Adaptive Power Control (PR-APC) untuk menyelesaikan permasalahan halangan dalam jaringan IoT. Rancangan model PR-APC akan mengidentifikasi semua informasi dalam jaringan kemudian memberikan power pada node terakhir sebelum halangan. Algoritma routing PR-APC akan dibandingkan dengan algoritma routing lainnya yaitu Physarum inspired Routing Protocol (P-iRP) dan Robust Selection Physarum-inspired Routing Protocol (RS-PRP). Protokol routing PR-APC mampu menghasilkan jalur routing terpendek (shortest path) 70% lebih baik dibandingkan dengan RS-PRP dan P-iRP. Delay yang dihasilkan lebih kecil sehingga masa hidup jaringan (network lifetime). Peningkatan kinerja routing PR-APC menghasilkan efisiensi dan keseimbangan sumber daya dalam jaringan sehingga dapat memperpanjang masa hidup jaringan IoT yang memiliki keterbatasan sumber daya dalam infrastruktur jaringan lokal IoT. Peningkatan kinerja routing PR-APC dapat memberikan solusi untuk mengatasi permasalahan halangan yang terdapat pada jaringan IoT. Peningkatan kinerja routing PR-APC dapat memberikan solusi untuk mengatasi permasalahan permasalahan halangan yang terdapat pada jaringan IoT di daerah agroindustri sehingga mampu meningkatkan potensi pertanian dan bisa lebih produktif dengan terhubung satu dan lainnya yang didukung oleh perkembangan kemajuan teknologi

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The future of wireless mesh network in next-generation communication: a perspective overview

Chai,

Zeng,

Liu

2024

Evolving Systems

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Lightweight and Energy-Aware Wireless Mesh Routing for Autonomic Internet of Things Networ

Cited by 4 publications

References 8 publications

Human Motion Target Posture Detection Algorithm Using Semi-Supervised Learning in Internet of Things

Human Motion Target Posture Detection Algorithm Using Semi-Supervised Learning in Internet of Things

Optimalisasi Routing dalam Jaringan Internet of Things Menggunakan Algoritma Physarum dan Kontrol Daya Adaptif

The future of wireless mesh network in next-generation communication: a perspective overview

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