HQ Presentation Ergonomic Development of a Computer Pointing Device - - PDF document

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See discussions, stats, and author profiles for this publication at: https://www.researchgate.net/publication/280533832 HQ Presentation Ergonomic Development of a Computer Pointing Device Data July 2015 DOI: 10.13140/RG.2.1.4797.6806 CITATIONS

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See discussions, stats, and author profiles for this publication at: https://www.researchgate.net/publication/280533832

HQ Presentation Ergonomic Development of a Computer Pointing Device

Data · July 2015

DOI: 10.13140/RG.2.1.4797.6806

CITATIONS READS

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3 authors, including: Some of the authors of this publication are also working on these related projects: Crowd Sourced Product Design; Meta-Design of the Logotype of the Protected Designation of Origin Serra da Estrela Cheese View project Advanced Monitoring & Maintenance of Trees - TreeM View project Denis A. Coelho Jönköping University

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Miguel L. Lourenço Polytechnic Institute of Guarda

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ERGONOMIC DEVELOPMENT OF A COMPUTER POINTING DEVICE – A DEPARTURE FROM THE CONVENTIONAL PC MOUSE TOWARDS CAD USERS TOWARDS CAD USERS

Miguel L. Lourenço, Rui A. Pitarma, Denis A. Coelho

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  • Camilleri, M.J., Malige A., Fujimoto, J. and Rempel D.M. (2013). ”Touch displays:

The effects of palm rejection technology on productivity, comfort, biomechanics and positioning”. Ergonomics, 56(12): 1850-62.

  • Chen, H.M., Lee, C.S., and Cheng, C.H. (2012). “The weight of computer mouse
  • Chen, H.M., Lee, C.S., and Cheng, C.H. (2012). “The weight of computer mouse

affects the wrist motion and forearm muscle activity during fast operation speed task”. European Journal of Applied Physiology. Vol. 112, Issue 6, pp. 2205-2212.

  • Conlon C. F., N. Krause, and David M. Rempel (2009). “A Randomized Controlled

Trial Evaluating an Alternative Mouse or Forearm Support on Change in Median and Ulnar Nerve Motor Latency at the Wrist”. American Journal of Industrial Medicine 52 (4): 304-310.

  • Fiorentino, M., Uva, A.E., Fabiano, M.D., and Monno, G. (2010). “Improving bi-

manual 3D input in CAD modelling by part rotation optimization”. Computer-Aided

  • Design. Advanced and Emerging Virtual and Augmented Reality Technologies in

Product Design. Vol. 42, Issue 5, pp. 462-470.

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  • Kluth, K., and Keller, E. (2014). Rollermouse vs. Standard Computer Mouse –

Electromyographic and Subjective Assessment of the Usability in Applications with Graphical user interfaces. Advances in Physical Ergonomics and Human Factors: Part I, 14, 235. Part I, 14, 235.

  • Lai, H.H., and Yang, S.L. (2012). “An Ergonomics-oriented Product Development

and Evaluation Process: A Case Study of Children’s Pointing Device” Journal of Convergence Information Technology, Vol. 7 Issue 6, pp.323.

  • Odell, D. and Johnson, P. (2007). “Evaluation of a mouse designed to improve

posture and comfort”. Proceedings of the Working with Computer Systems Conference-International Ergonomics Association, Stockholm, Sweden.

  • Rempel, D., Camilleri, M.J., and Lee, D.L. (2014). “The design of hand gestures for

human-computer interaction: Lessons from sign language interpreters”. International Journal of Human-Computer Studies. Vol. 72, Issues 10-11, pp. 728- 735.

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  • Young, J., Trudeau, M., Odell, D., Marinelli, K., and Dennerlein, J. (2013). “Wrist

and shoulder posture and muscle activity during touch-screen tablet use: Effects of usage and configuration, tablet type, and interacting hand Work”. Vol.45, Issue 1,

  • pp. 59-71.
  • pp. 59-71.
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