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Kim IJ. Development of a new analyzing model for quantifying pedestrian slip resistance characteristics: Part I - Basic concepts and theories. Int J Ind Ergon 2004a;33:395-401.
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Kim IJ. Development of a new analyzing model for quantifying pedestrian slip resistance characteristics: Part II - Experiments and validations. Int J Ind Ergon 2004b;33:403-14.
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Kim IJ. International encyclopedia of ergonomics and human factors-2005. 2nd ed. Florida (USA): Taylor & Francis Group; 2006a. p. 2563-7.
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Kim IJ. International encyclopedia of ergonomics and human factors-2005. 2nd ed. Florida (USA): Taylor & Francis Group; 2006b. p. 2727-32.
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Kim IJ, Nagata H. In: Bust PD, editor. Contemporary ergonomics 2008: proceedings of the international conference on contemporary ergonomics (CE2008). CRC Press: Taylor & Francis; 2008. p. 728-34.
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Kim IJ, Nagata H. Research on slip resistance measurements - a new challenge. Ind Health 2008;46:66-76.
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Nanda U, Malone EB, Joseph A. Achieving EBD goals through flooring selection & design. The Center for Health Design and Tandus Flooring. The Center for Health Design (CHD). Published by The Center for Health Design. 2012. Available from: https://www.healthdesign.org/sites/default/files/chd_achieving_ebd_goals_through_flooring_design_final.pdf.
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Health and Safety Executive. Assessing the slip resistance of flooring: a technical information sheet; 2012. Available from: http://www.hse.gov.uk/pubns/geis2.pdf.
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Kim IJ, Hsiao H, Simeonov P. Functional levels of floor surface roughness for the prevention of slips and falls: clean-and-dry and soapsuds-covered wet surfaces. Appl Ergon 2013;44:58-64.
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Yu R, Li KW. Perceived floor slipperiness and floor roughness in a gait experiment. Work 2015;50:649-57.
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Kim IJ. Investigation and interpretation of flooring wear developments for pedestrian fall safety assessments. Tribol Trans 2017:1-10.
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Kim IJ. Identifying shoe wear mechanisms and associated tribological characteristics: the importance for slip resistance evaluation.Wear 2016;360-1:77-86.
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Chaffin DB, Woldstad JC, Trujillo A. Floor/shoe slip resistance measurement. Am Ind Hyg Assoc J 1992;53:283-9.
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Kim IJ. In: Evans B, editor. Accidental falls: risk factors, prevention strategies and long-term outcomes. Hauppauge, NY 11788, USA: Nova Science Publishers, Inc.; 2015. p. 80-103.
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Redfern MS, Bidanda B. Slip resistance of the shoe-floor interface under biomechanically relevant conditions. Ergon 1994;37:511-24.
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Jones C, Manning DP, Bruce M. Detecting and eliminating slippery footwear. Ergon 1995;38:242-9.
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Chang WR, Kim IJ, Manning DP, Bunterngchit Y. The role of surface roughness in the measurement of slipperiness. Ergon 2001;44:1200-16.
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AS/NZS 4663. Slip resistance measurements of existing pedestrian surfaces. Australian Standards AS/NZS 4663; 2004.
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Kim IJ. Wear observation of shoe surfaces: application for slip and fall safety assessments. Tribol Trans 2015;58:407-17.
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Manning DP, Jones C. The effect of roughness, floor polish, water, oil and ice on underfoot friction: current safety footwear solings are less slip resistant than microcellular polyurethane. Appl Ergon 2001;32:185-96.
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Kim IJ. Pedestrian fall safety assessments: improved understanding on slip resistance measurements and investigations. Switzerland: Springer International Publishing AG; 2017. p. 199-224.
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Chang WR. The effects of surface roughness and contaminants on the dynamic friction between porcelain tile and vulcanized rubber. Saf Sci 2002;40:577-91.
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Chang WR. The effects of surface roughness and contaminant on the dynamic friction of porcelain tile. Appl Ergon 2001;32:173-84.
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Leclercq S, Saulnier H. Floor slip resistance changes in food sector workshops: prevailing role played by fouling. Saf Sci 2002;40:659-73.
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Kim IJ, Smith R. Observation of the floor surface topography changes in pedestrian slip resistance measurements. Int J Ind Ergon 2000;6:581-601.
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Kim IJ, Smith R, Nagata H. Microscopic observations of the progressive wear on the shoe surfaces that affect the slip resistance characteristics. Int J Ind Ergon 2001;28:17-29.
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Kim IJ, Smith R. In: Marpet M, Sapienza M, editors. Metrology of pedestrian locomotion and slip resistance. USA: ASTM International; 2003. p. 33-48. ASTM STP 1424.
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