Real Time Augmented Reality Monitoring System Pada Media Tanam Hidroponik Berbasis Wireless Sensor Network Untuk Smart Agriculture

Editya, Arda Surya (2017) Real Time Augmented Reality Monitoring System Pada Media Tanam Hidroponik Berbasis Wireless Sensor Network Untuk Smart Agriculture. Masters thesis, Institut Teknologi Sepuluh Nopember.

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Abstract

Internet of thing adalah sebuah teknologi yang berkembang saat ini dengan memanfaatkan teknologi internet untuk menghubugkan sebuah perangkat yang biasanya diterapkan untuk keperluan sistem monitoring. Seiring berkembangnya teknologi ini menimbulkan perkembangan juga pada sisi teknologi penunjangnya salah satunya adalah teknologi media transmisi. Salah satu teknologi yang berkembang saat ini pada media transmisi adalah wireless sensor network. Selain media transmisi dalam perkembangan teknologi sistem monitoring saat ini juga berkembang teknologi Augmented reality dimana teknologi ini mampu membawa sebuah objek virtual seolah-olah bergabung dengan objek nyata. Pada penelitian kali ini peneliti menerapkan sistem monitoring dengan media pengiriman wireless sensor network menggunakan metode fusion center dengan menggunakan teknologi augmented reality yang diterapkan pada bidang pertanian khususnya pada media penanaman hidroponik. Pada penelitian ini digunakan 2 jenis protokol yakni IEEE 802.14.5 dan Zigbee. Dari penelitian ini dihasilkan bahwa sistem realtime augmented reality monitoring system menggunakan protokol zigbee lebih stabil dibandingkan dengan protokol IEEE 802.14.5 hal ini dibuktikan dengan PER (Packet Error Rate) yang muncul sebesar 1.13% pada protokol zigbeee dan 24.35% pada protokol IEEE 802.14.5. Sedangkan berdasarkan hasil pengujian faktor yang mempengaruhi PER (Packet Error Rate) adalah periode sampling, jumlah sensor dan jarak. Pada penampakan objek Augmented reality tidak terdapat perbedaan signifikan antara hasil dari monitoring sistem dengan hasil monitoring menggunakan alat ukur konvensional. ================================================================================================================== Internet of things is an technology that is currently using Internet technology to connect a device that is usually applied for the purposes of monitoring systems. As the development of this technology leading to the development also in terms of technology supporting one of which is the transmission media technologies. One technology which is currently developing the transmission media one of them is wireless sensor network. In addition to the transmission media in the development of technology monitoring system is currently also developing Augmented reality technology which is capable of carrying a virtual object as if joined with the real object. In the present study the researchers apply a monitoring system with wireless sensor network delivery media using the fusion center using augmented reality technology applied to agriculture, especially the cultivation of hydroponic media. In this study used two types of protocol that is IEEE 802.14.5 and Zigbee. From this research result that the augmented reality system realtime monitoring system using zigbee protocol is more stable than the IEEE 802.14.5 protocol this is evidenced by the PER (Packet Error Rate) which appears at 1:13 on the protocol zigbeee% and 24.35% on the IEEE 802.14.5 protocol , While based on the testing of the factors that affect the PER (Packet Error Rate) is the sampling period, the number of sensors and distance. On sighting the object Augmented reality there is no significant difference between the results of the monitoring system by monitoring results using a conventional measuring instrument.

Item Type: Thesis (Masters)
Uncontrolled Keywords: Augmented reality, Wireless sensor network, IEEE 802.14.5, Zigbee.
Subjects: T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK5105 Data Transmission Systems
T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK5101 Telecommunication
T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK6570_iPhone (Smartphone)
Divisions: Faculty of Industrial Technology > Electrical Engineering > (S2) Master Theses
Depositing User: - ARDA SURYA EDITYA
Date Deposited: 20 Mar 2017 02:42
Last Modified: 20 Mar 2017 02:42
URI: http://repository.its.ac.id/id/eprint/2062

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