Analysis of Workload Soldier Warship Unit Ship Fast Koarmatim Using Nasa TLX Methods (Task Load Index)

International Journal of Humanities and Social Science

© 2018 by SSRG - IJHSS Journal

Volume 5 Issue 4

Year of Publication : 2018

Authors : Giani Ferianto, Ahmadi, Okol S Suharyo and Arica Dwi Susanto

10.14445/23942703/IJHSS-V5I4P107

How to Cite?

Giani Ferianto, Ahmadi, Okol S Suharyo and Arica Dwi Susanto, "Analysis of Workload Soldier Warship Unit Ship Fast Koarmatim Using Nasa TLX Methods (Task Load Index)," SSRG International Journal of Humanities and Social Science, vol. 5,  no. 4, pp. 31-36, 2018. Crossref, https://doi.org/10.14445/23942703/IJHSS-V5I4P107

Abstract:

Various activities and duties of soldiers in the ship when the War Ship carrying out operations task very possible occurrence of excessive mental workload on the personnel that can result in individuals and organizations. Moreover, added the condition of the ship is small, narrow and easily falter if buffeted by sea waves have an impact on soldiers inconvenience and directly affect their workload. This study will identify the indicators that could be expected to cause excessive mental work load on soldiers in the War ship level rank strata and between departments that have mental workload is higher, by using the method NASA TLX. The population in this study is the personnel warrior War ship with a total sample of 43 people. NASA TLX method is preferred because it is easy to apply and has several advantages in terms of the validity and accuracy of the results. The results of this study indicate that there is a high mental workload on some of the indicators in the NASA TLX of strata rank and each department. The average value of mental work load higher officer of NCO and enlisted men. While the Department of Engineering showed a higher workload than other departments. Advice that can be given is to provide a proportional mental workload when carrying out activities on the ship as prevention of excessive workload and reduce the risk of accidents. Additionally DSP adjustments, especially when carrying ship cruise or duty operations at sea.

Keywords:

NASA TLX, Workload, Warship.

References:

[1] Al e x CA o, KSHAVK 2009, 'NASA TLX: Software for assessing subjective mental workload', Behavior Research Methods, pp. 113-117. 
[2] Anju L. Singh 2010, 'Performance Feedback, Mental Workload and Monitoring Efficiency', Journal of the Indian Academy of Applied Psychology, vol vol 36 no1, pp. 151-158. 
[3] Beheshti MH, M 2015, 'The role of workload and job satisfaction in general health of', Original Article, p. ; 3 (1). 
[4] Coelho1, DA 2015, 'The Expanded Cognitive Task Load Index (NASA-TLX)applied to Team Decision-Making in EmergencyPreparedness Simulation', ISSN 2333-4959 (online). Available from http://hfe-seurope.org, pp. 226-234. 
[5] Dasgupta, PR 2013, 'Volatility of workload on employee performance and significance of motivation: IT sector', Science Journal of Business and Management, pp. 1(1) : 1-7. 
[6] Ghahramani, B 1999, 'An Analysis of Work Environments and Operations in Hot and Humid Areas', INTERNATIONAL JOURNAL OF OCCUPATIONAL SAFETY AND ERGONOMICS , vol VOL. 5, NO. 4, , pp. 591-596.
[7] Harun, MS 2015, 'THE DEVELOPMENT AND VALIDATION OF INSTRUMENT OF TEACHERS’WORKLOAD', International Journal of Education and Research , p. Vol. 3 No. 3. 
[8] Moss, AC 2017, 'Effect of Health Messages on Alcohol Attitudes and Intentions in a Sample of 16–17-Year-Old Underage Drinkers', International Journal of Environmental Research and Public Health — Open Access Journal, vol 14, 1183, pp. 1-11. 
[9] Omar, MK 2015, 'WORKLOAD, ROLE CONFLICT AND WORK-LIFE BALANCE AMONG EMPLOYEES OF', International Journal of Business, Economics and Law, , pp. Vol. 8, Issue 2. 
[10] Omolayo, BO 2013, 'Influence of Mental Workload on Job Performance', International Journal of Humanities and Social Science , p. Vol. 3 No. 15;. 
[11] Qureshi, MI 2013, 'Relationship Between Job Stress, Workload, Environment and Employees Turnover Intentions: What We Know, What Should We Know', World Applied Sciences Journal , pp. : 764-770. 
[12] Radzali, FM 2013, 'Workload, Job Stress, Family-To-Work Conflict and', International Journal of Academic Research in Business and Social Sciences, pp. Vol. 3, No. 12. 
[13] Ramkumar, A 2016, 'Using GOMS and NASA-TLX to Evaluate Human Computer Interaction Process in Interactive Segmentation', International Journal of Human–Computer Interaction, pp. 1-12. 
[14] ŞEKER, A 1131-1142, 'Using Outputs of NASA-TLX for Building a Mental Workload Expert System', Gazi University Journal of Science, p. 2014. 
[15] ŞEKER, A 2014, 'Using Outputs of NASA-TLX for Building a Mental Workload Expert System', Gazi University Journal of Science , pp. :1131-1142. 
[16] ŞEKER, A 2014, 'Using Outputs of NASA-TLX for Building a Mental Workload Expert System', Gazi University Journal of Science , pp. 1131-1142. 
[17] Shinde, MGV 2012, 'Ergonomic analysis of an assembly workstation to identify time consuming and fatigue causing factors using application ofmotion study”', International Journal of Engineering and Technology (IJET), vol Vol 4 No 4 , no. ISSN : 0975-4024, pp. 220-227. 
[18] Singh, AL January 2010, 'Performance Feedback, Mental Workload and Monitoring Efficiency', © Journal of the Indian Academy of Applied Psychology, vol , Vol.36, No.1, pp. 151-158. 
[19] Wiegmann, DA 2000, 'Human Error Perspectives in Aviation ', THE INTERNATIONAL JOURNAL OF AVIATION PSYCHOLOGY, vol 11, pp. (4), 341-357. 
[20] Yiyuan, Z 2011, 'Using NASA-TLX to evaluate the flight deck design in Design Phase of Aircraft', Procedia Engineering, pp. 77-83. 
[21] Żelazny, K 2014, 'A method of calculation of ship resistance on calm water useful at preliminary stages of ship design', Scientific Journals, pp.. 125–130.