Rancang Bangun Alat Ukur Dioptri Lensa Kacamata Untuk Penderita Miopi Dan Hipermetropi Dengan Penerapan Perspektif Visual Digital Berbasis Arduino Mega2560
DOI:
https://doi.org/10.25077/jfu.12.4.651-657.2023Keywords:
Dioptric, Perspective, Tft Display, Autorefractometers, Trial LensAbstract
Telah dilakukan penelitian tentang pengukuran dioptri lensa kacamata untuk penderita miopi dan hipermetropi dengan penerapan perspektif visual digital berbasis Arduino Mega2560. Penelitian ini bertujuan untuk mengukur dioptri lensa kacamata dengan menguji kemampuan lensa mata dalam melihat objek menggunakan alat alternatif pengganti sistem ukur yang biasa dipakai seperti autorefraktometer dan trial lens. Komponen utama yang digunakan yaitu TFT display 3.2 inch untuk penampil objek sebagai input data, kemudian data diolah menggunakan Arduino Mega2560 dan hasil keluaran akan ditampilkan pada LCD 2x16. Hasil pengukuran pada penderita rabun jauh didapatkan tingkat akurasi sebesar 98,08%, sedangkan pada pengukuran penderita rabun dekat menghasilkan tingkat akurasi sebesar 97,475. Dari hasil yang diperoleh, maka dapat disimpulkan bahwa rancang bangun yang telah diuji mampu bekerja dengan baik.References
Akbar, I., Ismail, N. and Rachmilda, T. (2020) ‘Rancang Bangun Pendeteksi Posisi Sudut dan Kecepatan Sesaat Dengan Menggunakan Rotary Encoder KY-040’, in Prosiding-Seminar Nasional Teknik Elektro UIN Sunan Gunung Djati Bandung, pp. 287–293.
Febry, C. and Elfia, M. (2018) ‘Perbandingan Hasil Pemeriksaan Mata Menggunakan Autorefrakto Dan Trial Lens Set Di Optik Citra Kota Padang’, MENARA Ilmu, XII(10), pp. 47–51.
Fitriyah, L.K. (2008) ‘Perancangan dan pembuatan alat ukur dioptri kacamata dengan menggunakan metode dua lensa berbasis mikrokontroller AT89S51’. Universitas Islam Negeri Maulana Malik Ibrahim.
Kaiser, P.K. (2004) The joy of visual perception: A web book. York University.
Maareof, A. and Firmawati, N. (2023) ‘Rancang Bangun Sistem Telemetri Pengukur Suhu Tubuh Menggunakan Sensor AMG8833, Sensor HCSR-501 dan Drone Berbasis Mikrokontroller’, Jurnal Fisika Unand, 12(2), pp. 171–177.
Mochamad Shandy Aryanto, M.F.W. (2011) ‘Alat Pengukur Rabun Jauh, Rabun Dekat Dan Mata Silindris Berbasis Mikrokontroler’. Universitas Komputer Indonesia, pp. 269–279.
Mufridah, A. (2016) ‘Pengembangan Media Video Menggambar Perspektif Untuk Pembelajaran Seni Budaya Di Kelas Xi Ipa Sma Walisongo Gempol Pasuruan’, Jurnal Pendidikan Seni Rupa, 04(03), pp. 435–442.
Pheasant, S. (1991) Ergonomics, Work and Health. Edited by MD. Gaithersburg: Aspen Publishers.
Priambodo, W.W., Rizal, A. and Halomoan, J. (2012) ‘Perangkat pengukur rabun jauh dan rabun dekat pada mata berbasis mikrokontroler’, Jurnal Teknologi, 5(2), pp. 90–97.
Wahyuni, S.E. and Kurniawan, B. (2014) ‘Analisis faktor intensitas penerangan lokal terhadap kelelahan mata di industri pembuatan sepatu “x†Kota Semarang’, Jurnal Kesehatan Masyarakat, 2(6), pp. 358–363.
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