Publications
Sergi, F., Pehlivan, A., Fitle, K., Nedley, K., Yozbatiran, N., Francisco, G. E., & O’Malley, M. K. (2015). Design of a parallel-group balanced controlled trial to test the effects of assist-as-needed robotic therapy. Singapore. (Original work published 2015) |
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Mehling, J., Holley, J., & O’Malley, M. K. (2015). Leveraging disturbance observer based torque control for improved impedance rendering with series elastic actuators. (Original work published 2015) |
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Fitle, K., Pehlivan, A., & O’Malley, M. K. (2015). A robotic exoskeleton for rehabilitation and assessment of the upper limb following incomplete spinal cord injury. Seattle, Washington. (Original work published 2015) |
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Treadway, E., Gillespie, B., Bolger, D., Blank, A. A., O’Malley, M. K., & Davis, A. (2015). The role of auxiliary and referred haptic feedback in myoelectric control. (Original work published 2015) |
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Artz, E., Blank, A. A., & O’Malley, M. K. (2015). Proportional sEMG based robotic assistance in an isolated wrist movement. Columbus, Ohio. (Original work published 2015) |
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Sergi, F., Erwin, A., & O’Malley, M. K. (2015). Interaction control capabilities of an MR-compatible compliant actuator for wrist sensorimotor protocols during fMRI. IEEE/ASME/Transactions/on/Mechatronics, 20, 2678-2690. |
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Rose, C. G., Sergi, F., Yun, Y., Madden, K., Deshpande, A. D., & O’Malley, M. K. (2015). Characterization of a hand-wrist exoskeleton, READAPT, via kinematic analysis of redundant pointing tasks. Singapore: IEEE. |
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Erwin, A., O’Malley, M. K., Ress, D., & Sergi, F. (2015). Development, control, and MRI-compatibility of the MR-SoftWrist. Singapore: IEEE. (Original work published 2015) |
Pehlivan, A. U., Sergi, F., Erwin, A., Yozbatiran, N., Francisco, G. E., & O’Malley, M. K. (2014). Design and validation of the RiceWrist-S exoskeleton for robotic rehabilitation after incomplete spinal cord injury. Robotica, 32, 1415–1431. (Original work published) |
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Celik, O., & O’Malley, M. K. (2014). Vary Slow Motion: Effect of Task Forces on Movement Variability and Implications for a Novel Skill Augmentation Mechanism. IEEE Robotics and Automation Magazine. (Original work published 2014) |