Found 9 results
Author Title [ Type(Desc)] Year
Filters: Author is Kia, Kiana  [Clear All Filters]
Journal Article
K. Kia, Sisley, J., Johnson, P. W., and Kim, J. H., Differences in typing forces, muscle activity, wrist posture, typing performance, and self-reported comfort among conventional and ultra-low travel keyboards, Applied Ergonomics, vol. 74, pp. 10 - 16, 2019.
K. Kia, Fitch, S. M., Newsom, S. A., and Kim, J. H., Effect of whole-body vibration exposures on physiological stresses: Mining heavy equipment applications., Appl Ergon, vol. 85, p. 103065, 2020.
K. Kia, Johnson, P. W., and Kim, J. H., The effects of different seat suspension types on occupants' physiologic responses and task performance: implications for autonomous and conventional vehicles, Applied Ergonomics, vol. 93, p. 103380, 2021.
K. Kia, Hwang, J., and Kim, J. H., Effects of error rates and target sizes on neck and shoulder biomechanical loads during augmented reality interactions., Appl Ergon, vol. 113, p. 104107, 2023.
K. Kia, Hwang, J., Kim, I. - S., Ishak, H., and Kim, J. H., The effects of target size and error rate on the cognitive demand and stress during augmented reality interactions., Appl Ergon, vol. 97, p. 103502, 2021.
K. Kia, Bae, H., Johnson, P. W., Dennerlein, J. T., and Kim, J. H., Evaluation of Vertical and Multi-axial Suspension Seats for Reducing Vertical-dominant and Multi-axial Whole Body Vibration and Associated Neck and Low Back Joint Torque and Muscle Activity., Ergonomics, pp. 1-29, 2022.
K. Kia, Kincl, L., Chan, A., and Kim, J. H., A fishermen-developed intervention reduced musculoskeletal load associated with commercial Dungeness crab harvesting., Appl Ergon, vol. 110, p. 104016, 2023.
Y. - K. Kong, Park, S. - S., Shim, J. - W., Choi, K. - H., Shim, H. - H., Kia, K., and Kim, J. H., A passive upper-limb exoskeleton reduced muscular loading during augmented reality interactions., Appl Ergon, vol. 109, p. 103982, 2023.
J. - H. Park, Kia, K., Srinivasan, D., and Kim, J. H., Postural balance effects from exposure to multi-axial whole-body vibration in mining vehicle operation., Applied Ergonomics, vol. 91, p. 103307, 2020.