Items where Author is "Ding, R"
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Journal article
DING, R., DONG, H., HE, J. and LI, T., 2019. A novel two-archive strategy for evolutionary many-objective optimization algorithm based on reference points. Applied Soft Computing, 78, pp. 447-464. ISSN 1568-4946
APPS, C., STERZING, T., O'BRIEN, T., DING, R. and LAKE, M., 2017. Biomechanical locomotion adaptations on uneven surfaces can be simulated with a randomly deforming shoe midsole. Footwear Science, 9 (2), pp. 65-77. ISSN 1942-4280
APPS, C., STERZING, T., O’BRIEN, T., DING, R. and LAKE, M., 2016. Ankle and knee joint stiffness in walking; unpredictable and predictable shoe perturbations. Foot and Ankle Surgery, 22 (2), pp. 17-18. ISSN 1268-7731
Conference contribution
APPS, C., STERZING, T., O'BRIEN, T., DING, R. and LAKE, M., 2016. Ankle and knee joint stiffness in running; unpredictable and predictable shoe perturbations. In: The 1st UK Footwear Science Meeting, Stoke on Trent, April 2016.
APPS, C., DING, R., CHEUNG, J. and STERZING, T., 2014. Individual and generalized lower limb muscle activity and kinematic adaptations during running on an unpredictable irregular surface. In: The 4th Congress of the International Foot and Ankle Biomechanics Community, Busan, Korea, April 2014.
APPS, C., DING, R., CHEUNG, J. and STERZING, T., 2014. Individual and generalized lower limb muscle activity and kinematic adaptations during walking on an unpredictable irregular surface. In: The 4th Congress of the International Foot and Ankle Biomechanics Community, Busan, Korea, April 2014.
APPS, C., DING, R. and CHEUNG, J., 2014. Running on an unpredictable irregular surface changes lower limb biomechanics and subjective perception compared to running on a regular surface. In: The 4th Congress of the International Foot and Ankle Biomechanics Community, Busan, Korea, April 2014.
STERZING, T., APPS, C., DING, R. and CHEUNG, J., 2014. Walking on an unpredictable irregular surface changes lower limb biomechanics and subjective perception compared to walking on a regular surface. In: The 4th Congress of the International Foot and Ankle Biomechanics Community, Busan, Korea, April 2014.
