Smart House With Voice Control Lights Using Arduino R3
DOI:
https://doi.org/10.64515/irdhijtans.v2i1.85Keywords:
Sound Sensor, Voice Code, Arduino, Microcontroller, Sound WavesAbstract
Advances in science and technology have improved human life; Now we live in the era of electric voice commands, with a smart home management system that allows people to control home electrical devices such as lights with voice commands, so they don’t have to move to turn off or turn on the lights. When the sound wave user turns on the light or runs the system, the FC-04 sound sensor sends a signal to the microcontroller. The microcontroller then
processes the signal into voltage to turn on the light. The FC-04 sound sensor can only produce a digital signal with a value of 1 and 0, which can be collected to the Arduino through the uploaded software to be used as a 5-volt input to turn the lights on or off. Many things can affect the lights when turned on from a certain distance such as the sensitivity of the sound sensor and the noise level around the lights. This research employs an experimental method by designing and testing a system based on the FC-04 sound sensor and Arduino. Testing was conducted to evaluate the sensor's sensitivity, the impact of noise, and the system's accuracy under various conditions. The findings are expected to enhance the efficiency of smart home technology.
References
Articles from the Journals
Agnesia, A., Kustidarsyah, F., Setiawan, I. M. A., & Muharani, L. (2024). Implementasi Sistem Irigasi Smart Garden IoT pada Perkebunan Stroberi. Jurnal Inovasi Teknologi Terapan, 2(1), 88-98.
Akbar, R. S., Kholid, F., Kasiyanto, K., Widiatmoko, D., & Achmad, A. (2024). Design of Fuel Monitoring Application for Reservoir Tanks in Army Fuel Supply Point on Military Logistics Corps Based on Internet of Things. International Journal of Engineering and Computer Science Applications (IJECSA), 3(1), 19-32.
Arianti, N. N., Bintang, R. M., & Mulyasari, G. (2022). Persepsi dan Adaptasi Petani Perikanan Air Tawar terhadap Perubahan Iklim di Kecamatan Padang Jaya Kabupaten Bengkulu Utara. Jurnal Kebijakan Perikanan Indonesia, 14(2), 73-85.
Emidiana, E., Nurdiana, N., Al Amin, M. S., Azis, A., Febrianti, I. K., & Perawati, P. (2023). Sosialisasi Penggunaan Panel Surya Bagi Petani Sawah Tadah Hujan. Jurnal Pengabdian kepada Masyarakat Nusantara, 4(2), 629-633.
Fahlevi, M. R., & Gunawan, H. (2020). Perancangan Sistem Pendeteksi Banjir Berbasis Internet Of Things. IT Journal, 8(1).
Mamahit, C. (2024). Rumah Pintar dengan Lampu Kontrol Suara Menggunakan Arduino Uno R3. Electrician: Jurnal Rekayasa dan Teknologi Elektro, 18(2), 144-152.
Naga, J. B., Widiatmoko, D., & Kasiyanto, K. (2023). Translation Motion-Based Backpack for Indonesian Army Soldiers as a Source of Energy for Military Communication Devices. Jurnal Bumigora Information Technology (BITe), 5(2), 187-194.
Pratiwi, R. M. C., & Fatchiya, A. (2021). Sikap Petani Atas Peralihan Fungsi Lahan Pertanian Ke Non Pertanian Di Kelurahan Pasir Putih, Sawangan, Depok. Jurnal Sains Komunikasi Dan Pengembangan Masyarakat [JSKPM], 5(3), 462-472.
Prayogi, S., Widiatmoko, D., Syafaat, M., Pradigdo, D., Alfarizi, R. M., & Sridaryono, A. (2024). Design of the pistol P1 weapon storage system shelf using fingerprint electronic system in the TNI-AD units. TEKNOSAINS: Jurnal Sains, Teknologi dan Informatika, 11(2), 238-244.
Puspito, A. S., Jeki, S., & Aguk, S. (2020). Pada Rancang Bangun Sistem Kontrol Robot Intai Menggunakan Metode Artificial Neural Network. Jurnal Elkasista, 1, 21-26.
Saputra, A., Ansori, M., & Widiatmoko, D. (2020). rancang bangun alat pendeteksi suhu tubuh otomatis dengan image processing menggunakan metode backpropagation. Jurnal Elkasista, 1(1), 1-6.
Sugiarta, A., Kasiyanto, K., Widiatmoko, D., Syafaat, M., Achmad, A., & Asif, I. (2023). Technology Biomechanic-Based Design of Knee Protector Generator for Portable Electricity Generation to Support Military Operations in the Field. Jurnal Bumigora Information Technology (BITe), 5(2), 159-170.
Suprayadi, M., Suryadi, K., & Widiatmoko, D. (2020). smart charging with stepper pada sepatu pdl tni sebagai suply alat komunikasi saat patroli di daerah perbatasan. Jurnal Elkasista, 1(1), 1-6.
Syahid, M., Salam, N., Piarah, W., Djafar, Z., Tarakka, R., & Alqadri, G. (2022). Pemanfaatan pompa air tenaga surya untuk sistem irigasi pertanian. JURNAL TEPAT: Teknologi Terapan untuk Pengabdian Masyarakat, 5(1), 102-108.
Tamboenan, F. D., Syafaat, M., Setiawan, A., Widiatmoko, D., & Al-farizi, R. M. (2024). Implementation of the SN04 Roko metal sensor on a 5.56 mm caliber portable magazine feeder. TEKNOSAINS: Jurnal Sains, Teknologi dan Informatika, 11(2), 306-311.
Widiatmoko, D., Setiawibawa, R., Al-farizi, R. M., Syafaat, M., & Prawira, E. (2023). Implementasi Sensor LDR Pada Prototipe Sistem Tracking Dual Axis Untuk Deteksi Arah Sinar Matahari Pada Sel Surya. ASPIRASI: Publikasi Hasil Pengabdian dan Kegiatan Masyarakat, 1(5), 132-140.
Widiatmoko, D., Aripriharta, A., Kasiyanto, K., Irmanto, D., & Prasetyo, M. W. (2024). Power Efficiency using Bank Capacitor Regulator on Field Service Shoes with Fast Charge Method. MATRIK: Jurnal Manajemen, Teknik Informatika dan Rekayasa Komputer, 23(2), 273-284.
Worden, J., & Zuercher-Martinson, M. (2009). How inverters work. Solar Pro, (2.3).
Proceeding
Uriawan, W., Zulfikar, W. B., Sofa, R. M., & Ramdhani, M. A. (2018, November). Internet of things for automatic garage doors using ESP8266 module. In IOP Conference Series: Materials Science and Engineering (Vol. 434, No. 1, p. 012057). IOP Publishing.
Published Book
Setiawibawa, R., Widiatmoko, D., Kasiyanto, K., Setiawan, H., & Sridaryono, A (2023). Elektronika Dasar. Purbalingga : Penerbit Cv.Eureka Media Aksara.
