ESP8266-based Child Monitoring Bracelet Based on Smartphone Connected to Parents Smartphones
Keywords:
ESP8266, Gelang, Pemantauan, Teknologi, WisatawanAbstract
Indonesia of the country with diverse tourism destinations. This invites many tourists who come to Indonesia. In addition to promising tourism, safety and comfort are also one of the selling points that tourists consider in choosing a vacation place. Many cases of child loss in Indonesia occur in tourism places that are crowded with visitors, therefore this study aims to design, build, and analyze ESP8266-based child monitoring bracelets connected to smart phones. It can send the current location of the wristband to the smartphone so that the position of the missing child can be tracked by the parents. The test is carried out by measuring the distance between the two tools, if the distance between the parent and the child's bracelet reaches a maximum distance (50 meters) then the alarm on each bracelet will sound and within a radius below the maximum distance when the parent activates the switch, the alarm on the child will be active and vice versa. It’s hoped that the existence of this smart bracelet can directly detect the location of children that are far from the reach of parents and can reduce cases of child loss that occur in tourism places crowded with visitors.
References
Aji, F. S., Amrin, F. A., Ikram, M. D. W., & Hayati, L. N. (2019). Gelang Pendeteksi Keberadaan Anak Dan Menggunakan Tombol Darurat. ILKOM Jurnal Ilmiah, 11(2), 129-134.
Faroqi, A., Hadisantoso, E. P., Halim, D. K. & WS, M. . S., 2016. PERANCANGAN ALAT PENDETEKSI KADAR POLUSI UDARA MENGUNAKAN SENSOR GAS MQ-7 DENGAN TEKNOLOGI WIRELESS HC-05. Jurnal ISTEK, X(2), pp. 38-39.
Fezari, M. & Dahoud, A. A., 2018. Integrated Development Environment “IDE” For Arduino. ResearchGate, 30 October.pp. 1-12.
Gunawan, I., Sadali, M., Suhartini, S., & Fathurrahman, I. (2022). PERANCANGAN ALAT DAN SISTEM PEMANTAUAN PENDAKI GUNUNG BERBASIS INTERNET OF THINGS (IOT). Jurnal Tekinkom (Teknik Informasi dan Komputer), 5(2), 239-246.
Putra, R. D., & Putri, R. E. (2021). Prototype Gelang Tangan Pendeteksi Jarak Physical Distancing Man To Man. CHIPSET, 2(02), 55-62.
Rini, T. H. & Intyas, I., 2018. Perancangan Alat Untuk Tracking Ekspedisi Berbasis GPS (Google Maps) Berbasis GPS (Google Maps). Jurnal ICT Akademi Telkom Jakarta, IX(17), pp. 10-12.
Romansyah, M. A. & Supriyono, H., 2015. Aplikasi Sistem Pelacakan Kinerja Pengiriman PadaTruk Pengangkut Barang Berbasis Android. eprints UMS, pp. 10- 11.
Sihombing, Y. M. (2017). Rancang Bangun Penjaga Jarak 10 Meter Antara Ibu dan Anak Memanfaatkan Bluetooth Hc-05 Berbasis Mikrokontroller Atmega328 (Doctoral dissertation, Universitas Sumatera Utara).
Susanto, A. W., Piscesa, I., Widianingsih, R., Putra, R. G., & Setyawan, S. B. (2019, August). Gelang Bagi Tunarungu Berbasis Internet of Things. In Prosiding Seminar Sains Nasional dan Teknologi (Vol. 1, No. 1).
Triawan , Y. & Sardi, J., 2020. Perancangan Sistem Otomatisasi pada Aquascape Berbasis Mikrokontroller Arduino Nano. JTEIN: Jurnal Teknik Elektro Indonesia, 1(2), pp. 76-77.
Utami, B. A., & Kafabih, A. (2021). Sektor pariwisata Indonesia di tengah pandemi COVID 19. Jurnal Dinamika Ekonomi Pembangunan, 4(1), 383-389.
