Modifikasi Alat Back And Leg Dynamometer Digital Dilengkapi Parameter Pengklasifikasian Kekuatan Otot Tungkai Dan Otot Punggung Berbasis Arduino

  • Kusnadi Kusnadi Program Studi D3 Teknik Elektromedik, Politeknik Unggulan Kalimantan Banjarmasin, Indonesia
  • Hikmah Maya Sari Program Studi D3 Teknik Elektromedik, Politeknik Unggulan Kalimantan Banjarmasin, Indonesia
  • Aldinor Setiawan Program Studi D3 Teknik Elektromedik, Politeknik Unggulan Kalimantan Banjarmasin, Indonesia
  • Muhammad Akbar Hariyono Politeknik Unggulan Kalimantan
Keywords: Back And Leg Dynamometer, Leg Muscles, Back Muscles, Arduino Nano

Abstract

Back And Leg Dynamometer is a tool used to measure the components of back muscle strength, leg muscles of athletes, patients and workers to evaluate the physical status of performance and task demands. Because it will be beneficial for physical development. The method used in this study is Research and Development (RnD), by developing from previous research. The development carried out is in the addition of measurements for the leg and back muscle modes with a classification system that is carried out automatically with the aim of facilitating the user in measuring the strength of the leg muscles and back muscles. The results of product testing from data in the field can be summarized as follows. Comparison results of the Digital Back and Leg Dynamometer designed with the Analog Back and Leg Dynamometer have a measurement error value of 3%. The voltage generated by the battery is 10.59 Vdc with an error value of 1.59 Vdc and an error accuracy of 0.17%. On Arduino Nano measurements the resulting voltage is 4.75 Vdc with an error value of 0.24 Vdc and an accuracy of errors 4.98%.

References

Adhi, B.P. and Soenyoto, T. (2017) ‘Pengaruh Metode Latihan dan Kekuatan Otot Tungkai terhadap Power Otot Tungkai’.
Arifi, M.F., Lesmono, A.D. and Handayani, R.D. (2021) ‘Analisis Konsep Fisika Pada Penggunaan Alat Pertanian Cangkul Oleh Petani Sebagai Bahan Pembelajaran Fisika’, JURNAL PEMBELAJARAN FISIKA, 10(3), p. 121. Available at: https://doi.org/10.19184/jpf.v10i3.25563.
Erlita, U.A., Wibowo, B.S. and Hariyono, M.A. (2023) ‘Shoulder Wheel Therapy Tool Prototype Equipped With Arduino Based Therapy Time And Angle Monitor’, Health Media, 4(2).
Fahrizqi, E.B., Gumantan, A. and Yuliandra, R. (2021) ‘Pengaruh latihan sirkuit terhadap kekuatan tubuh bagian atas unit kegiatan mahasiswa olahraga panahan’, Multilateral : Jurnal Pendidikan Jasmani dan Olahraga, 20(1), p. 43. Available at: https://doi.org/10.20527/multilateral.v20i1.9207.
Haiqal, M.F. and Wiriawan, O. (2022) ‘Analisis Kondisi Fisik Cabang Olahraga Pencak Silat Kategori Tanding Putra KONI Kabupaten Sidoarjo’, Jurnal Prestasi Olahraga, 5(4).
Handayani, W. and Sari, M. (2023) ‘Kontribusi Kekuatan Otot Lengan Dan Koordinasi Mata Tangan Terhadap Kemampuan Servis Bawah Bolavoli Siswa Kelas VIII SMP Negeri 2 Langgam’, Jurnal Olahraga Indragiri, 6(2), pp. 29–43. Available at: https://doi.org/10.61672/joi.v6i2.2573.
Hariyono, M.A., Erlita, U.A. and Wibowo, B.S. (2023) ‘Prototype Baby Incubator With Monitoring System Water Based Internet of Things (IoT)’, Health Media, 4(2).
Ponza, P.J.R., Jampel, I.N. and Sudarma, I.K. (2018) ‘Pengembangan Media Video Animasi Pada Pembelajaran Siswa Kelas IV Di Sekolah Dasar’, 6.
Pratama, M.I.A. and Jatmiko, T. (2019) ‘Pengaruh Latihan Barbell Back Squat Terhadap Peningkatan Kekuatan Otot Tungkai Atlet Angkat Besi Bojonegoro’, Jurnal Prestasi Olahraga, 2(3).
Wahyuni, N. and Adiatmika, I.P.G. (2020) ‘Gambaran hasil pemeriksaan kekuatan otot mahasiswa program studi sarjana kedokteran dan pendidikan dokter fakultas kedokteran dan mahasiswa program studi farmasi fakultas matematika dan ilmu pengetahuan alam universitas udayana tahun 2019’, Medicina, 51(2). Available at: https://doi.org/10.15562/medicina.v51i2.957.
Published
2024-01-11
How to Cite
Kusnadi, K., Maya Sari, H., Setiawan, A., & Hariyono, M. A. (2024). Modifikasi Alat Back And Leg Dynamometer Digital Dilengkapi Parameter Pengklasifikasian Kekuatan Otot Tungkai Dan Otot Punggung Berbasis Arduino. Health Media, 5(1), 41-50. https://doi.org/10.55756/hm.v5i1.167
Section
Articles

Most read articles by the same author(s)