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Aisyah Journal of Informatics and Electrical Engineering
Published by Universitas Aisyah Pringsewu
ISSN : 26860139     EISSN : 26859556     DOI : -
Core Subject : Science, Engineering,
Computer Science & IT Electrical & Electronics Engineering Engineering
Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E) is intended as a medium for scientific studies of research results, thoughts, and critical-analytic studies regarding research in the field of computer science, technology and Electrical Engineering, including Systems Engineering, Informatics Engineering/Information Technology, Informatics Management, Information Systems and Electrical. It is part of the spirit of disseminating knowledge resulting from research and thoughts for the service of the wider community. Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E) publishes papers regularly two times a year, namely in February and August. All publications in AJIEE journals are open, allowing articles to be freely available online without a subscription. Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E) accepts scientific articles with research scopes on: Information System and Multimedia Internet of Things (IoT) Software Engineering Database System Information Engineering Artificial Intelligence Signal Processing and Analysis Computing and Processing Cloud Computing, IT Forensic Robotic and Control Mobile Computing and Programing Communication Networking Security and Broadcasting Power, Energy and Industry
Arjuna Subject : Teknik (semua kategori) - Teknik Listrik dan Elektro
Articles 13 Documents
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Search results for , issue "Vol. 5 No. 1 (2023): Aisyah Journal Of Informatics and Electrical Engineering" : 13 Documents clear
STUDI ANALISA PERHITUNGAN NILAI HARMONIK TEGANGAN DAN ARUS PADA BUDDHA TZU CHI HOSPITAL Laurensius Richard Mulyadi Richard; Insani Abdi Bangsa
Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E) Vol. 5 No. 1 (2023): Aisyah Journal Of Informatics and Electrical Engineering
Publisher : Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30604/jti.v5i1.124

Abstract

ABSTRACT The occurrence of harmonics is caused by the non-linear operation of the electrical load. The level of harmonic distortion or what is called Total Harmonic Distortion (THD) in a transformer can cause losses that affect the efficiency of the transformer. In this study, THD measurements were carried out on four transformers at Tzu Chi Hospital. This research was conducted using observation, documentation, and direct measurements in the field to analyze within the limits of the IEEE 519-2014 standard. The purpose of this study was to analyze the main electrical system at Tzu Chi Hospital, analyze the value of Total Harmonic Distortion (THD) for voltage analysis. and currents at Tzu Chi Hospital. THDv based on the measurement results are transformer 1 4.8%, transformer 2 2.48%, transformer 3 1.51%, transformer 5 5%. While the THDi results obtained after measurement are transformer 1 20.2%, transformer 2 29 ,4%, transformer 3 14.78%, transformer 5 37.8%. Even after measurement, THDv was found to conform to the IEEE 519-2014 standard, and THD was found to be non-compliant with the IEEE 519-2014 standard. ABSTRAK Timbulnya harmonik disebabkan oleh operasi beban listrik non-linier. Tingkat distorsi harmonik atau yang disebut dengan Total Harmonic Distortion (THD) pada suatu trafo dapat menimbulkan rugi-rugi yang mempengaruhi efisiensi trafo. Pada penelitian ini dilakukan pengukuran THD pada empat trafo di Rumah Sakit Tzu Chi. Penelitian ini dilakukan dengan metode observasi, dokumentasi, dan pengukuran langsung di lapangan untuk menganalisis kesesuaian dengan batasan standar IEEE 519 2014. Tujuan dari penelitian ini adalah untuk menganalisis sistem kelistrikan utama di Rumah Sakit Tzu Chi, menganalisa perhitungan nilai Total Harmonic Distortion (THD) untuk tegangan dan arus di Rumah Sakit Tzu Chi. THDv berdasarkan hasil pengukuran yaitu transformator 1 4,8%, transformator 2 2,48%, transformator 3 1,51%, transformator 5 5%.sedangkan THDi hasil yang didapat setelah dilakukan pengukuran adalah transformator 1 20,2%, transformator 2 29,4%, transformator 3 14,78%, transformator 5 37,8%. Bahkan setelah pengukuran, THDv diketahui sesuai dengan standar IEEE 519 2014, dan THDi diketahui tidak sesuai dengan standar IEEE 519 2014.
ANALISIS INSTALASI FIRE ALARM PADA BASEMENT APARTEMENT SEBAGAI SISTEM PROTEKSI KEBAKARAN muhammad taufiq taufiq; Insani Abdi Bangsa
Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E) Vol. 5 No. 1 (2023): Aisyah Journal Of Informatics and Electrical Engineering
Publisher : Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30604/jti.v5i1.125

Abstract

ABSTRACT As we know fire is a very harmful thing, especially for humans. There are many causes and effects of fires, ranging from loss of property to loss of life. During this time, the fire department would usually be called when a building caught fire. However, the firefighters are often late in arriving at the location when the fire occurs. There are several factors that are indeed a problem for firefighters such as the long distance to the location and so on. Therefore, we need a system that can minimize the spread of fire. Fire alarm system is an integrated system designed and built to detect fires, issue warnings or notifications, and run fire control systems automatically or manually. The main part that is the controller or controller of this system is the Main Control Fire Alarm (MCFA) or the Fire Alarm Control Panel (FACP) which functions as an input signal for all detectors or sensors, then provides an output signal through the output component. Keywords: Fire, Fire Alarm, MCFA, Protection ABSTRAK Seperti kita ketahui kebakaran merupakan hal yang sangat merugikan, khususnya bagi manusia. Ada banyak penyebab dan akibat dari kebakaran, mulai dari hilang harta benda hingga merenggut korban nyawa. Selama ini, pemadam kebakaran biasanya akan dipanggil ketika sebuah bangunan terjadi terbakar. Namun sering terjadinya keterlambatan para pemadam tersebut sampai dilokasi ketika kebakaran. Ada beberapa faktor yang memang menjadi masalah pemadam seperti jarak yang jauh ke lokasi dan lain halnya. Oleh karena itu, diperlukan suatu sistem yang dapat meminimalkan penyebaran api. Fire alarm system adalah sistem terintegrasi yang dirancang dan dibangun untuk mendeteksi kebakaran, mengeluarkan peringatan atau pemberitahuan, dan menjalankan sistem pengendalian kebakaran secara otomatis atau manual. Bagian utama yang menjadi pengendali atau pengkontrol sistem ini anatara lain Main Control Fire Alarm (MCFA) atau Fire Alarm Control Panel (FACP) yang berfungsi sebagai menerima sinyal masukan (input signal) semua detektor atau sensor, kemudian memberikan sinyal keluaran (output signal) melewati komponen keluaran. Kata Kunci: Kebaran, Fire Alarm, MCFA, Proteksi
ANALISIS KINERJA DAN SISTEM PEMELIHARAAN GENERATOR SET (GENSET) PADA APARTEMENT GREEN CENTRAL CITY Sumanto; Insani Abdi Bangsa
Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E) Vol. 5 No. 1 (2023): Aisyah Journal Of Informatics and Electrical Engineering
Publisher : Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30604/jti.v5i1.127

Abstract

ABSTRACT The existence of a generator in the apartment is very very important. If the main electricity supply from PLN is off or under repair, the generator will work as a power supply for backup electricity. The size of the generator has an important role in generating electricity. The generator component consists of a power generator with a series of propulsion engines that work together to produce a certain amount of electricity using fuel. The place where this research was carried out was at the Green Central City Apartment. The generator used by the Green Central City Apartment is a generator with the MAN brand with type D2842 – LE213 as many as 3 units. The capacity of the generator used at Green Central City Apartments is 800 kVA and 700 kVA. The generator maintenance process at the Green Central City Apartment is carried out regularly. The process of checking the generator is carried out by checking several important components such as the condition of the battery, fuel supply, radiator water, and engine oil. In addition, the generator engine will be turned on as a step to heat the engine and also record data on the generator which can be seen on the control panel. Further maintenance is carried out based on the operating hours of the generator. For the treatment process, follow the procedure. Keywords: Generator; Apartement; Maintenance ABSTRAK Keberadaan Genset di Apartement sangat amat penting. Jika pasokan listrik utama dari PLN sedang mati atau dalam perbaikan makan Genset akan bekerja sebagai Power Supply untuk cadangan listrik. Ukuran genset memiliki peran penting dalam menghasilkan besaran listrik. Komponen Genset terdiri atas pembangkit tenaga dengan rangkaian mesin penggerak yang bekerja sama untuk menghasilkan listrik daya tertentu menggunakan bahan bakar. Tempat pelaksaan dari penelitian ini dilakukan pada Apartemen Green Central City.Genset yang digunakan oleh Apartemen Green Central City yaitu Genset Dengan Merek MAN dengan tipe D2842 – LE213 sebanyak 3 unit. Kapasitas genset yang digunakan pada Apartemen Green Central City adalah 800 kVA dan 700 kVA. Untuk proses pemeliharaan genset di Apartemen Green Central City ini dilakukan secara berkala. Proses pengecekan genset dilakukan dengan pengecekan beberapa komponen penting seperti kondisi baterai, persediaan bahan bakar, air radiator, serta oli mesin. Selain itu juga mesin genset akan dinyalakan sebagai langkah untuk memanaskan mesin dan juga mencatat data – data pada genset yang dapat dilihat pada panel kontol. Untuk perawatan selanjutnya dilakukan berdasarkan jam operasional dari genset. Untuk proses perawatannya mengikuti prosedur. Kata Kunci: Genset; Apartemen; Pemeliharaan
PEMANFAATAN PEMBANGKIT LISTRIK TENAGA SURYA (PLTS) PADA GEDUNG UPHB PT PEMBANGKIT JAWA BALI UNIT MUARA KARANG Rizki Maulana Rizki; Insani Abdi Bangsa
Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E) Vol. 5 No. 1 (2023): Aisyah Journal Of Informatics and Electrical Engineering
Publisher : Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30604/jti.v5i1.128

Abstract

PEMBANGUNAN PEMBANGKIT LISTRIK TENAGA SURYA (PLTS) ROOF TOP PADA GEDUNG GUDANG UTAMA PT PEMBANGKIT JAWA BALI UNIT MUARA KARANG Muhammad Aditya Salim; Insani Abdi Bangsa
Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E) Vol. 5 No. 1 (2023): Aisyah Journal Of Informatics and Electrical Engineering
Publisher : Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30604/jti.v5i1.129

Abstract

It should be noted that electricity demand in Indonesia reached 1,109 kWh per capita in the third quarter 2021 that figure is equivalent to 92.2% of the target in 2021 of 1,203 kWh per capita electricity consumption per capita has continued to increase since 2015 and the highest increase occurred in 2017 of 6.80% while the lowest increase occurred in 2020 of 0.4%. On-grid PLTS are solar panels and inverters. Meanwhile, off-grid PLTS works continuously independent without being connected to the PLN network. The method used in the research This is the observation method. The observation method is a data collection technique that is carried out through an observation, accompanied by notes on the situation or the behavior of the target object. The application of rooftop PV mini-grid construction in PV mini-grid projects rooftop at PT. Muara Karang PJB unit uses an on-grid system which means the PLTS system will only generate electricity when there is electricity from the grid (PLN). generated from a rooftop solar power plant (PLTS) in the main warehouse building of PT. PJB estuary unit based on the calculations carried out is 669.8496 kWh / day. Power that produced will change with the intensity of sunlight in the area, where if low intensity the power generated will be low and if the intensity is high the power generated will be high. Perlu diketahui kebutuhan listrik di Indonesia mencapai 1.109 kWh per kapita pada kuarta III 2021 angka itu setara dengan 92,2% dari yang di targetkan pada tahun 2021 sebesar 1.203 kWh per kapita kosumsi listrik per kapita terus meningkat sejak 2015 dan peningkatan tertinggi tejadi pada tahun 2017 sebesar 6,80% sedangkan peningkatan terendah terjadi pada tahun 2020 sebesar 0,4%. PLTS on-grid adalah panel surya dan inverter. Sedangkan PLTS off-grid bekerja secara independen tanpa dihubungkan dengan ke jaringan PLN. Metode yang digunakan dalam penelitian ini adalah metode observasi.Metode observasi adalah teknik pengumpulan data yang dilakukaan melalui sesuatu pengamatan, dengan disertai pencatatan-pencatatan terhadap keadaan atau prilaku objek sasaran.Penerapan pembangunan PLTS rooftop pada proyek pembangunan PLTS rooftop di PT. Unit PJB muara karang menggunakan sistem on-grid dimana berarti sistem PLTS hanya akan menghasilkan listrik ketika terdapat listrik dari jaringan (PLN).Daya maksimal yang dihasilkan dari pembangkit listrik tenaga surya (PLTS) rooftop di Gedung Gudang utama PT. PJB unit muara karang bedasarkan perhituang yang dilakukan adalah 669,8496 kWh / hari. Daya yang dihassilkan akan berubah seiring intensitas cahaya matahari di daerah tersebut, di mana bila intensitas rendah daya yang dihasilkan akan rendah dan jika intensitas tinggi daya yang dihasilkan akan tinggi.
PERANCANGAN JARINGAN FIBER TO THE HOME (FTTH) MENGGUNAKAN APLIKASI GOOGLE EARTH PRO Muhamad Irsal MI; Yuliarman Saragih
Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E) Vol. 5 No. 1 (2023): Aisyah Journal Of Informatics and Electrical Engineering
Publisher : Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30604/jti.v5i1.133

Abstract

ABSTRACT Currently the public's need for internet network access for voice, data and video services continues to increase, to run these services requires very high bandwidth and internet speed. Fiber To The Home (FTTH) is a telecommunications service architecture that utilizes optical network transmission media that supports transmission at bandwidth and internet speeds of up to 100 Mbps. Therefore, it is necessary to develop the FFTH network for areas that do not have internet network access such as the Royal Residence Karawang housing, the development of the FFTH network requires a good design in order to determine the number of devices needed and minimize the use of costs. To design the FTTH Network, the Google Earth Pro application is used to determine the area of ​​the Polygon, the coordinates of the Optical Distribution Point, Poles and Optical Distribution Cabinet. In designing, determining the number of devices and the coordinates of the devices to be installed. Keywords: FTTH; Google Earth Pro; Telecommunication ABSTRAK Saat ini kebutuhan masyarakat akan akses jaringan internet untuk layanan suara, data dan video terus meningkat, untuk menjalankan layanan tersebut membutuhkan bandwidth dan kecepatan internet yang sangat tinggi. Fiber To The Home (FTTH) adalah arsitektur layanan telekomunikasi yang memanfaatkan media transmisi jaringan optik yang mendukung transmisi pada bandwidth dan kecapatan internet mencapai 100 Mbps. Oleh karena itu perlu dilakukan pengembangan jaringan FFTH untuk daerah yang belum memiliki akses jaringan internet seperti perumahan Royal Residence Karawang, pengembangan jaringan FFTH memerlukan desain yang baik agar dapat menentukan jumlah perangkat yang dibutuhkan dan meminimalkan penggunaan biaya. Untuk merancang Jaringan FTTH, digunakan aplikasi Google Earth Pro untuk menentukan luas Polygon, koordinat Optical Distribution Point, Tiang dan Optical Distribution Cabinet. Dalam melakukan perancangan dilakukan penentuan jumlah perangkat dan koordinat perangkat yang akan dipasang. Kata Kunci: FTTH; Google Earth Pro; Telekomunikasi
INKUBAKTOR PENETAS TELUR OTOMATIS BERBASIS FUZZY LOGIC CONTROL Arjunas Asna Anugerah Asna Anugerah; Arnisa Stefanie
Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E) Vol. 5 No. 1 (2023): Aisyah Journal Of Informatics and Electrical Engineering
Publisher : Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30604/jti.v5i1.134

Abstract

ABSTRACT The development of technology in today's era has had a profound impact on people's lives. One of them is the creation of an egg incubator. However, the existing egg incubator still uses a simple concept with several weaknesses, including still using the on/off method on the switch, the temperature level required for eggs to hatch is still low, and a manual schedule for egg reversal is still needed. intends to make a research entitled "Automatic Egg Incubator Based on Fuzzy Logic Control". The main controller used in the manufacture of this tool uses Arduino uno which has been programmed with Fuzzy Logic Control then connected to the DHT11 sensor actuator to detect the temperature and humidity values. The DHT11 sensor is used to view the recorded temperature value. And the stepping motor actuator acts as an automatic egg rotation every time. 3 hours. The application of fuzzy logic control in this study produces a stable response according to the system that has been set. Keywords: Egg Incubator, Sensor DHT11, Arduino Uno, Fuzzy Logic ABSTRAK Perkembangan teknologi di zaman sekarang memang sangat berdampak pada kehidupan masyarakat. Salah satu nya adalah terciptanya alat penetas telur. Namun, alat penetas telur yang sudah ada masih menggunakan konsep sederhana dengan beberapa kelemahan, diantaranya masih menggunakan metode mati/nyala pada saklar, tingkat temperatur yang diperlukan telur untuk menetas masih rendah, dan masih diperlukan jadwal manual untuk pembalikan telur.Dari beberapa kelemahan inilah peneliti bermaksud membuat penelitian yang berjudul “Inkubator Penetas Telur Otomatis Berbasis Fuzzy Logic Control”. Kontroller utama yang digunakan dalam pembuatan alat ini menggunakan Arduino uno yang telah terprogram dengan Fuzzy Logic Control kemudian disambungkan dengan aktuator sensor DHT11 untuk mendeteksi nilai temperatur dan kelembapan.Sensor DHT11 digunakan untuk melihat nilai suhu yang terekam.Dan aktuator motor stepping sebagai putaran telur otomatis setiap 3 jam. Penerapan fuzzy logic control pada penelitian ini menghasilkan respon yang stabil sesuai dengan system yang sudah di atur. Kata Kunci: Inkubator Telur, Sensor DHT11, Arduino Uno, Fuzzy Logic
ANALISIS METODE PEMELIHARAAN DIESEL GENERATOR MENGGUNAKAN BEBAN TIRUAN PADA SISTEM BACKUP TENAGA LISTRIK Bayu Nurjabar; Insani Abdi Bangsa
Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E) Vol. 5 No. 1 (2023): Aisyah Journal Of Informatics and Electrical Engineering
Publisher : Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30604/jti.v5i1.137

Abstract

PT. X (nama disamarkan), merupakan suatu perusahaan yang bergerak di bidang industri. PT. X di-supply dengan listrik tegangan menengah yaitu 20 KV yang berlangganan premium dari PLN (Perusahaan Listrik Negara) sehingga diberikan keunggulan berupa keandalan pasokan listrik yang lebih baik. Dengan demikian, risiko adanya pemadaman listrik sangat minim sehingga membuat diesel generator sebagai sistem backup tenaga listrik jarang digunakan. Hal ini berpotensi dapat menyebabkan performa diesel generator menurun, bahkan dapat mengalami kerusakan. Untuk itu diperlukan pemanasan diesel generator secara rutin menggunakan beban tiruan berupa heater dengan nilai beban yang dapat diatur secara bertahap sesuai kebutuhan. Pemanasan genset setidaknya seminggu sekali selama minimal 10 menit. Namun pada praktiknya pemanasan diesel generator pada PT.X dilakukan setiap 10 hari sekali dengan durasi pemanasan sekitar 30 menit. Meskipun pada saat pemanasan semua diesel dioperasikan, namun hanya 2 buah diesel saja yang dilakukan pengecekan. Hasil dari pemanasan ini adalah kemampuan diesel generator dalam mem-backup tenaga listrik selama blackout dengat cukup baik. Namun pemeliharaan yang selama ini dilakukan dinilai tidak optimal. Hal ini dikarenakan kemampuan diesel generator tidak dimaksimalkan, namun hanya seperempat dari kemampuannya.
PERANCANGAN SISTEM INSTRUMENTASI BERBASIS INTERNET OF THINGS PADA MODERN AGRICULTURE Sulistio Nanda Reynara; Ulinnuha Latifa; Lela Nurpulaela
Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E) Vol. 5 No. 1 (2023): Aisyah Journal Of Informatics and Electrical Engineering
Publisher : Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30604/jti.v5i1.141

Abstract

Indonesians depend on the agricultural sector as a source of daily livelihood.With rice as the staple food of Indonesian people, it is no stranger to the term seeding.The seeding process is the process of growing seeds until they become seedlings that are ready for planting.The importance of the seeding process is because, the seeding process serves to reduce the mortality that occurs in seeds.The superior quality of seedlings is influenced by several factors during the seeding process, namely: soil moisture, room temperature, room humidity and water pH.To maintain the optimality of the seeding process, it is carried out by monitoring these factors using 3 sensors, namely: the YL-69 sensor to monitor soil moisture, the DHT-11 sensor to monitor room temperature and room humidity, and the SEN0161 pH Meter sensor to monitor the pH of water.All three sensors are controlled by the NodeMCU ESP32 microcontroller to process the data.The level of accuracy is generated through comparison of sensors and conventional measurements. An accuracy of 99.16% for temperature and 99.66% for room humidity, while an accuracy value accuracy of 100% is produced on soil moisture and water pH. By monitoring these factors in the seeding process, the seeding can take place optimally and get superior seedling yields.
PERANCANGAN SISTEM MONITORING JARAK JAUH PADA SMART AGRICULTURE SYSTEM Abie Pangestu; Ulinnuha Latifa; Lela Nurpulaela
Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E) Vol. 5 No. 1 (2023): Aisyah Journal Of Informatics and Electrical Engineering
Publisher : Aisyah Journal Of Informatics and Electrical Engineering (A.J.I.E.E)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.30604/jti.v5i1.142

Abstract

The seeding process is the process of making seeds into seedlings that are ready to plant.The seeding process serves to produce quality seedlings and serves to reduce the death that occurs in the seeds.To produce quality seedlings, favorable environmental conditions are needed to maintain factors that affect the results of the seeding process.Internet of Things technology in agriculture can help in monitoring crop growth, monitoring can be done anywhere and anytime.Monitoring plant growth conditions is done by sending data from microcontrollers, namely NodeMCU ESP32 to the Database, namely Google Firebase and then the android application takes the data in the database and displays the data processing results.Creating a plant growth monitoring application that has a user-friendly design and a good level of data delivery accuracy is expected to be able to improve the quality of rice seedlings.The use of Internet of Things transmission for the transmission of data from microcontrollers to applications was declared successful.The data sent has an accuracy rate of 100% of each data sent.Applications or user interfaces are able to provide important information for users to more easily understand products and about sowing rice.The application is able to display real-time data transmitted by microcontrollers accurately.

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