Perancangan Aplikasi Smart Home Menggunakan Esp32 Berbasis Android

Rupianto, Ifnu Akbar; Astutik, Rini Puji; Surya, Yoedo Ageng

doi:10.30591/polektro.v12i1.4722

Cited by 2 publications

(1 citation statement)

References 4 publications

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“…Sensor Nova PM SDS011 dihubungkan ke sebuah platfrom pengendali sensor melalui internet, yaitu Blynk melalui perangkat ESP32 yang terprogram khusus untuk mencatat data untuk dikirimkan melalui internet [18], [19]. Perangkat ESP32 terhubung ke jaringan intenet melalui jaringan nirkabel 2.4GHz (Wi-Fi), pada penelitian ini menggunakan Mi-Fi [20].…”

Section: Hasil Dan Pembahasanunclassified

Analisis kualitas udara menggunakan internet of things di pintu perlintasan kereta api

Kusumaningrum,

Hermawan,

Sumarsono

et al. 2023

CoSciTech

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The limited number of air quality sensors causes the presentation of Air Quality Index information to be not optimal. In principle, the installation of Air Quality Index sensors can provide input in air quality control and monitoring policies in an area. However, some places that have the potential to become local tourism or gathering places such as around the railroad crossing area do not have air quality sensors installed. Wind speed when trains pass can cause dust to scatter. Therefore, it is necessary to conduct further studies related to air quality around railroad crossings. Therefore, this research proposes to analyze and monitor air quality around railroad crossings in the Special Region of Yogyakarta based on the Internet of Things. In this study, the installed sensors functioned to monitor air quality at 3 locations that have different characteristics so that the data generated is also different. Based on the PM25 sensor, the air quality is categorized as Good 50% and Moderate 50%, while the PM10 sensor is categorized as Good 80% and Moderate 30%. The Internet of Things sensor built in this study is still not integrated in its recording between wind speed and air quality.

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Section: Hasil Dan Pembahasanunclassified

Analisis kualitas udara menggunakan internet of things di pintu perlintasan kereta api

Kusumaningrum,

Hermawan,

Sumarsono

et al. 2023

CoSciTech

View full text Add to dashboard Cite

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IoT revolutionizes orchid cultivation in Indonesia with precision and efficiency

Bisri,

Syahrorini

2024

ijins

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The Orchidaceae family is highly valued in ornamental, perfume, medical, and cosmetic industries, but cultivation often fails due to human error. This research aims to design an IoT-integrated automation system to monitor and control key parameters such as air temperature, humidity, and moss moisture for orchid cultivation. Using the research and development method, we observed plant needs, reviewed relevant literature, designed an effective system, and tested sensor accuracy and system reliability. Results showed the DHT-22 sensor had a minimal error in temperature (0.9%) and humidity (2.1%) readings, and the soil moisture sensor had a 3.65% error. The system maintained optimal conditions, and the Blynk app effectively displayed data. This innovation reduces human error and enhances orchid cultivation efficiency, with potential applications in other sensitive plant systems. Highlight: Error Reduction: IoT system minimizes human error in orchid cultivation. Sensor Accuracy: DHT-22 sensors show minimal temperature (0.9%) and humidity (2.1%) errors. Optimal Conditions: Maintains air humidity 40%-80%RH and moss moisture 50%-80%RH. Keyword: Orchidaceae, IoT automation, sensor accuracy, environmental control, orchid cultivation

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Perancangan Aplikasi Smart Home Menggunakan Esp32 Berbasis Android

Cited by 2 publications

References 4 publications

Analisis kualitas udara menggunakan internet of things di pintu perlintasan kereta api

Analisis kualitas udara menggunakan internet of things di pintu perlintasan kereta api

IoT revolutionizes orchid cultivation in Indonesia with precision and efficiency

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