Ergonomics Product Development of a Mobile Workstation for Health Care

Risto Toivonen, Dong-Shik Choi, and Nina Nevala

Journal of Usability Studies, Volume 7, Issue 1, November 2011, pp. 40 - 50

Article Contents

---

References

• Ammenwerth, E., Buchauer, A., Bludau, B., & Haux, R. (2000). Mobile information and communication tools in the hospital. International Journal of Medical Informatics, 57(1), 21-40.
• Andersen, P., Lindgaard, A., Prgomet, M., Creswick, N., & Westbrook, J. (2009). Mobile and fixed computer use by doctors and nurses on hospital wards: Multi-method study on the relationships between clinician role, clinical task, and device choice. Journal of Medical Internet Research, 11(3), e32.
• Bangor, A., Kortum, P., & Miller, J. (2008). An empirical evaluation of the system usability scale. International Journal of Human-Computer Interaction, 24(6), 574-594.
• Bangor, A., Kortun, P., & Miller, J. (2009). Determining what individual SUS scores mean: Adding an adjective rating scale. Journal of Usability Studies, 4(3), 114-123.
• Barrington, S. (2007). Usability in the lab: Techniques for creating usable products. Journal of the Association for Laboratory Automation, 12(1), 6-11.
• Beauchamp, Y. (1999). Application of visual analog scales (VAS) for the comparative evaluation of tool and equipment designs and work methods. Computers & Industrial Engineering, 37(1-2), 289-292.
• Brooke, J. (1996). SUS: A “quick and dirty” usability scale. In P. W. Jordan, B. Thomas, I. L. McClelland & B. Weerdmeester (Eds.), Usability evaluation in industry (pp. 189-194). London: Taylor & Francis.
• Buchauer, A., Werner, R., & Haux, R. (1998). Cooperative problem solving with personal mobile information tools in hospitals. Methods of Information in Medicine, 37(1), 8-15.
• Dumas, J. S. (2003). User-based evaluations. In J. A. Jacko & A. Sears (Eds.), The human- computer interaction handbook: Fundamentals, evolving technologies and emerging applications (p. 1093–117). New Jersey: Lawrence Erlbaum Associates.
• Hignett, S. (1998). Ergonomic evaluation of electric mobile hoists. The British Journal of Occupational Therapy, 61(8), 509-516.
• Junglas, I., Abraham, C., & Ives, B. (2009). Mobile technology at the frontlines of patient care: Understanding fit and human drives in utilization decisions and performance. Decision Support Systems, 46(3), 634-647.
• Karahoca, A., Bayraktar, E., Tatoglu, E., & Karahoca, D. (2010). Information system design for a hospital emergency department: A usability analysis of software prototypes. Journal of Biomedical Informatics, 43(2), 224-232.
• Kaufman, D. R., Patel, V. L., Hilliman, C., Morin, P. C., Pevzner, J., Weinstock, R. S., Goland, R., Shea, S., & Starren, J. (2003). Usability in the real world: Assessing medical information technologies in patients' homes. Journal of Biomedical Informatics, 36(1-2), 45-60.
• Kushniruk, A. W., & Patel, V.L. (2004). Cognitive and usability engineering methods for the evaluation of clinical information systems. Journal of Biomedical Informatics, 37(1), 56-76.
• Lapinsky, S. E. (2007). Mobile computing in critical care. Journal of Critical Care, 22(1), 41-44.
• Launis, M., & Lehtelä, J. (1992). ergoSHAPE - A design oriented ergonomic tool for AutoCAD. In M. Mattila & W. Karwowski (Eds.), Computer applications in ergonomics, occupational safety and health (pp. 121-128). Amsterdam, Holland: Elsevier Science BV.
• Liljegren, E. (2006). Usability in a medical technology context assessment of methods for usability evaluation of medical equipment. International Journal of Industrial Ergonomics, 36, 345-352.
• Liljegren, E., & Osvalder, A. (2004). Cognitive engineering methods as usability evaluation tools for medical equipment. International Journal of Industrial Ergonomics, 34(1), 49-62.
• Lintula, M., & Nevala, N. (2006). Ergonomics and the usability of mechanical single-channel liquid dosage pipettes. International Journal of Industrial Ergonomics, 36(3), 257-263.
• Martin, J. L., Norris, B. J., Murphy, E., & Crowe, J.A. (2008). Medical device development: The challenge for ergonomics. Applied Ergonomics, 39(3), 271-283.
• Molich, R. (2010). A commentary of "how to specify the participant group size for usability studies: A practitioner’s guide" by Macefield. Journal of Usability Studies, 5(3), 124-128.
• Nevala, N., & Tamminen-Peter, L. (2004). Ergonomics and usability of an electrically adjustable shower trolley. International Journal of Industrial Ergonomics, 34(2), 131-138.
• Pheasant, S. (1996). Bodyspace: Anthropometry, ergonomics and the design of the work (2nd ed.). London: Taylor & Francis.
• Price, D. D., McGrath, P. A., Rafii, A., & Buckingham, B. (1983). The validation of visual analogue scales as ratio scale measures for chronic and experimental pain. Pain, 17(1), 45-56.
• Reuss, E., Menozzi, M., Büchi, M., Koller, J., & Krueger, H. (2004). Information access at the point of care: What can we learn for designing a mobile CPR system?. International Journal of Medical Informatics, 73(3), 363-369.
• Sauro, J. (2011). A practical guide to the system usability scale: Background, benchmarks & best practices. North Charleston, South Carolina: Booksurge LLC.
• Wu, J., Wang, S., & Lin, L. (2007). Mobile computing acceptance factors in the healthcare industry: A structural equation model. International Journal of Medical Informatics, 76(1), 66-77.

 

Previous