Preventing Practices of Manipulating Accident Data in the Coal Mining Sector Using Mobile Applications in East Kalimantan, Indonesia
Abstract
Objective: The practice of manipulating data on work accidents and potential hazards still occurs, especially in the coal mining sector. A mobile application for reporting work accidents and potential hazards is required so that data manipulation practices can be prevented.
Material and Methods: The research design used was exploratory, which aimed to introduce and explore the capabilities of the SIKAP mobile application (Information System for Occupational Accidents, Occupational Diseases and Potential Hazards) to prevent data manipulation practices. Researchers involved thirty coal mine workers, using the SIKAP application, which had been tested on three information systems experts using the black box testing method.
Results: Every worker had the opportunity to report work accidents and potential dangers via the SIKAP application on the worker’s account. Companies can receive and follow up on worker reports via the company account. Regional governments in the field of labor development and inspection can monitor reports through government accounts. The SIKAP application is integrated and synchronized between workers, companies and the government.
Conclusion: The SIKAP application is able to prevent the practice of manipulating work accident reporting data and potential hazards in the coal mining sector.
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Sonny S. Wardhana I. Mining and deforestation: study of coal mining licensing in east kalimantan province. J Renaiss 2020:5;681.
President of Indonesia. Law of the Republic of Indonesia 2003 Number 13 Concerning Employment. Jakarta: President of Indonesia; 2003.
President of Indonesia. Republic of Indonesia Government Regulation Number 50 of 2012 Concerning the Implementation of an Occupational Safety and Health Management System. Jakata: President of Indonesia Republic; 2012.
Heraghty D, Dekker S, Rae A. Accident report interpretation. Safety 2018:4;46.
Sneddon A, Mearns K, Flin R. Stress, fatigue, situation awareness and safety in offshore drilling crews. Saf Sci 2013. doi: 10.1016/j.ssci.2012.05.027.
Molinero Ruiz E, Pitarque S, Fondevila-McDonald Y. Martin-Bustamante M. How reliable and valid is the coding of the variables of the european statistics on accidents at work (ESAW)? A need to improve preventive public policies. Saf Sci 2015;79:72-9 doi: 10.1016/j.ssci.2015.05.005.
Sultan M. Collaboration tripartite elements accident reporting and potential hazards management coal mining, indonesia: systematic review. J Healh Sci Med Res 2023:41:1–5.
Liu Q, Li X, Hassall M. Regulatory regime on coal mine safety in china and australia: comparative analysis and overall findings. Resour Policy 2021:74:101454.
Wang X, Zhang C, Deng J, Su C. Gao Z. Analysis of factors influencing miners unsafe behaviors in intelligent mines using a novel hybrid MCDM model. Int J Environ Res Public Health 2022;19.
Fang W, Luo H, Xu S, Love P.E.D, Lu Z, YE C, Automated text classification of near-misses from safety reports: An improved deep learning approach. Adv Eng Inform 2020;44:101060.
Winkler M, Perlman Y, Westreich, S. Reporting near-miss safety events: impacts and decision-making analysis. Saf Sci 2019;117:365–74.
Sultan M, Setyadi D, Ramdan IM, Haviluddin H, Hidayati T. Work accident reporting in coal mining, Indonesia: a systematic literature review. Periodicals OSH 2023:21;2:51-9.
Qiao W, Li X, Liu Q. Systemic approaches to incident analysis in coal mines: Comparison of the STAMP, FRAM and “2–4” models. Resour Policy 2019;63:101453 doi: 10.1016/j.resourpol.2019.101453.
Kumar P, Gupta S, Gunda YE. Estimation of human error rate in underground coal mines through retrospective analysis of mining accident reports and some error reduction strategies. Saf Sci 2020;123:104555.
Dash AK, Bhattacharjee RM, Ahmad A, Sagesh KMR, Singh CS. Mine accident investigation in India: a system approach. JMMF 2022;66:742-8.
Huang Y. Zhou Q. Mine accident prediction and analysis based on multimedia big data. Multimed Tools Appl 2019;82:1145 doi: 10.1007/s11042-019-7175-6.
Tetzlaff EJ, Goggins KA, Pegoraro AL, Dorman SC, Pakalnis V, Eger VR. Safety culture: a retrospective analysis of occupational health and safety mining reports. Saf Health Work 2021;12:201–8.
Ye X, Ren S, Li X, Wang Z. The mediating role of psychological capital between perceived management commitment and safety behavior. J Safety Res 2020;72:29–40
Stewart AG. Mining is bad for health: a Voyage of Discovery. Environ. Geochem Health 2020;42:1153–65.
Yang X, Krul K, Sims D. Uncovering coal mining accident coverups: an alternative perspective on China’s new safety narrative. Saf Sci 2022;148:105637.
Nugroho AS. Management information systems: a practitioner’s review of information technology. Teknosain 2018.
Abualoush SH, Obeidat AM, Tarhini A, Masa’deh R, Al-Badi A. The role of employees’ empowerment as an intermediary variable between knowledge management and information systems on employees’ performance. VINE J Inf Knowl Manag Syst 2018;48:217–37.
Yang L, Birhane GE, Zhu J, Geng J. Mining employees safety and the application of information technology in coal mining: review. Front Public Heal 2021;9:1–12.
Sinaga BR, Werdana KP, Irwanto D, Hanafi N. Use of the I-SAFE Application in the Implementation of Mining Safety PT. Borneo Indobara South Kalimantan. Proceedings of the Perhapi Annual Professional Meeting 2020. Jakarta: Association of Indonesian Mining Professionals; 2020.
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