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All Journal Jurnal Teknik Pertanian Lampung (Journal of Agricultural Engineering) Sainmatika: Jurnal Ilmiah Matematika dan Ilmu Pengetahuan Alam
Irzaman Irzaman
IPB University
Agriculture, Biological Sciences & Forestry Chemistry Engineering Mathematics Physics

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Rancangan G-Optimal pada Peningkatan Kadar Kemurnian Silikon Dioksida Nindya Wulandari; Erfiani Erfiani; Irzaman Irzaman; Utami Dyah Syafitri
Sainmatika: Jurnal Ilmiah Matematika dan Ilmu Pengetahuan Alam Vol. 19 No. 2 (2022): Sainmatika : Jurnal Ilmiah Matematika dan Ilmu Pengetahuan Alam
Publisher : Universitas PGRI Palembang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31851/sainmatika.v19i2.9492

Abstract

Rancangan percobaan merupakan serangkaian uji yang bertujuan mengamati dan mengidentifikasi perubahan-perubahan pada output respon disebabkan oleh perubahan-perubahan pada variabel input dari suatu proses. Penelitian ini bertujuan untuk mendapatkan rancangan terbaik untuk peningkatan kadar SiO2. Silikon Dioksida (SiO2) merupakan salah satu mineral yang paling banyak ditemukan di bumi. SiO2 banyak digunakan di berbagai bidang sehingga ketersediaannya semakin berkurang. Prosedur kemurnian dapat digunakan untuk meningkatkan kemurnian silika yang memiliki kualitas rendah dengan mengubah suhu dan laju kenaikan suhu. Metode yang digunakan adalah desain G-optimal menggunakan algoritma Variable Neighborhood Search (VNS). Model yang digunakan dalam meningkatkan kemurnian silikon dioksida adalah model non-linier yang mengikuti distribusi eksponensial decay. Titik rancangan terbaik yang diperoleh dari rancangan G-optimal pada hubungan antara suhu (oC) dan laju kenaikan suhu (oC/menit) yaitu titik  800 ­oC  hingga 900 ­oC adalah kombinasi titik  800 ­oC dan 1,67 oC/menit, 800 ­oC dan 2,17 oC/menit, 815 oC dan 4,67 oC/menit, 825 ­oC dan 4,17 oC/menit, 835 ­oC dan 5 oC/menit, 855 ­oC dan 2,17 oC/menit, 880 ­oC dan 2,34 oC/menit, 895 ­oC dan 4,67 oC/menit,  serta 900 oC dan 4 oC/menit dengan nilai G-efisiensinya adalah 96,09%.
Engineering of Information Monitoring System Sensor Reading Data Based on Smart Wireless using NVDIA Jetson Nano and Arduino Mega on Agricultural Spraying Machines Ridwan Siskandar; Tineke Mandang; Wawan Hermawan; Irzaman Irzaman
Jurnal Teknik Pertanian Lampung (Journal of Agricultural Engineering) Vol 12, No 4 (2023): December 2023
Publisher : The University of Lampung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.23960/jtep-l.v12i4.921-936

Abstract

The focus of the research is monitoring data from sensors on the agricultural sprayer. The monitoring system support by some sensors in camera, tank capacity, boom sprayer balance and battery capacity. The research method was carried out using the waterfall model, because according to the needs that require a sequential flow in the process. This model is divided into four parts, namely analysis (to identify problems and needs), design (plans to solve problems to be solved), implementation (implementation of plans that have been made), and testing. Engineering of Information Monitoring System Sensor Reading Data Based on Smart Wireless using NVDIA Jetson Nano and Arduino Uno on Agricultural Spraying Machines. The test results for the CNN model for the detection of the “Jajar Legowo” object were carried out to obtain 90% accuracy, 82.35% precision and 100% recall. Tests an accuracy value cappacity tank of 100%. Testing the balance sensor, if rotates clockwise on the Y axis the output voltage decreases, and vice versa. However, if the sensor at rest, the output voltage will same as the offset value. Besides that, testing the optimum PWM value fuzzy approach is carried out with aim that the droplets hit the target zone when sprayer is working. The result are Arduino IDE and Matlab produce same value, which is 42 for the optimum PWM value. Testing the battery capacity sensor get accuracy value of 100% by difference in the voltage increase of 0.5 volts is equivalent to increase of 10%. All information read by the sensors is displayed on the LCD using WMS-2000 (smart wireless). Keyword: Fuzzy, Microcontroller, Monitoring, Sensor data, Smart wireless
Co-Authors Erfiani Erfiani Nindya Wulandari Ridwan Siskandar Tineke Mandang Utami Dyah Syafitri Wawan Hermawan