Analisis Pengaruh Heart Rate Variability Dalam Penggunaan Welding Simulator Terhadap Performance Welder

Nurul Laili Arifin; Fedia Restu

doi:10.30871/ji.v10i1.693

Penulis

Nurul Laili Arifin Politeknik Negeri Batam
Fedia Restu Politeknik Negeri Batam

DOI:

https://doi.org/10.30871/ji.v10i1.693

Kata Kunci:

welding simulator, HRV, SSQ, performance welder

Abstrak

Abstract

VIMS (Visual Induced Motion Sickness) experienced by simulator welding tool operators can be measured using HRV (Heart Rate Variability) as an objective assessment and SSQ (Simulator Sickness Quesioner) as a subjective assessment. Measurement of these parameters can determine whether or not human influence on the performance of the welding simulator operator. The purpose of this study is to find the relationship between the influence of heart rate variability in the use of welding simulator to performance welder. Heart Rate measured during simulation then analyzed further using software. In the HRV assessment, it turns out the heart rate significantly influences the use of welding simulator tool (F (2.23) = 3.670, p <0.05). These results indicate that in the use of welding simulator in a long time will affect the stability of heart rate in welder. Meanwhile, in terms of performance welder, it is known that the vertical position has the highest score with a score of 1344.35 indicating that the vertical position is the most easily controlled position compared to the flat position of 1239.96 and over head of 1181.73.

Unduhan

Data unduhan belum tersedia.

Referensi

[1] Wibirama, S., dan Hamamoto, K.(2014) 3D Gaze Tracking on Stereoscopic Display Using Optimized Geometric Method," IEEJ Transactions on Electronics, Information and Systems. vol.134, no.3, pp.345"“352.
[2] Wibirama, S., Wijayanto, T., Nugroho, H.A., Bahit, M., dan Winadi, M.N.(2015). Quantifying Visual Attention and Visually Induced Motion Sickness During Day-Night Driving and Sleep Deprivation. International Conference on Data and Software Engineering.
[3] Dziuda, L., Biernacki, M.P., Baran, P.M., dan Truszczynski, O.E.(2014). The Effect of Simulated Fog and Motion on Simulator Sickness in a Driving Simulator and the Duration of After-Effects. Journal Applied Ergonomics 45 : 406-412.
[4] Kennedy, R.S., Stanney, K.M., dan Dunlap, W.P.(2000). Duration and Exposure to Virtual Environments:Sickness Curves During and Across Session. Presence 9 (5), 463-472.
[5] Restu, Fedia.(2016). Analisis Pengaruh Penggunaan Welding Simulator Terhadap Visual
Induced Motion Sickness (VIMS). UGM Yogyakarta. ISBN;978-602-73461-3-0.
[6] Kennedy, R.S., Lane, N.E., Berbaum, K.S., dan Lilienthal, M.G.(1993) Simulator Sickness Questionaire:An Enhanced Method for Quantifying Simulator Sickness. International Jornal of Aviation Psychology. 3:3, 203-220.
[7] Jiang, Xiao-ling. dkk, 2015, A Blunted Sympathetic and Accentuated Parasympathetic Response to Postural Change in Subjects with Depressive Disorders, Journal of Affective Disorders, no. 175, 269-274.
[8] Corwin, J.E., 2001, Buku Saku Patofisiologi, Penerbit Buku Kedokteran, Jakarta: EGC.