Publications
, “White matter changes in corticospinal tract associated with improvement in arm and hand functions in incomplete cervical spinal cord injury: pilot case series”, Spinal Cord Series and Cases, vol. 3, p. 17028, 2017.
Yozbatiran2017SpinalCordSeries.pdf (870.84 KB)
Yozbatiran2017SpinalCordSeries.pdf (870.84 KB), “White matter changes in corticospinal tract associated with improvement in arm and hand functions in incomplete cervical spinal cord injury: pilot case series”, Spinal Cord Series and Cases, vol. 3, p. 17028, 2017. Yozbatiran2017SpinalCordSeries.pdf (870.84 KB)
Yozbatiran2017SpinalCordSeries.pdf (870.84 KB), “White matter changes in corticospinal tract associated with improvement in arm and hand functions in incomplete cervical spinal cord injury: pilot case series”, Spinal Cord Series and Cases, vol. 3, p. 17028, 2017. Yozbatiran2017SpinalCordSeries.pdf (870.84 KB)
Yozbatiran2017SpinalCordSeries.pdf (870.84 KB), “Transcranial direct current stimulation (tDCS) of the primary motor cortex and robot-assisted arm training in chronic incomplete cervical spinal cord injury: A proof of concept sham-randomized clinical study”, NeuroRehabilitation, vol. 39, pp. 401–411, 2016. TDCS_2016_Neurorehab.pdf (198.16 KB)
TDCS_2016_Neurorehab.pdf (198.16 KB), “Single limb cable driven wearable robotic device for upper extremity movement support after traumatic brain injury”, Journal of Rehabilitation and Assistive Technologies Engineering, vol. 8, p. 20556683211002448, 2021. JRATE_2021_Kadivar_Armstrong.pdf (1.54 MB)
JRATE_2021_Kadivar_Armstrong.pdf (1.54 MB), “Robotic training and clinical assessment of upper extremity movements after spinal cord injury; a single case report”, Journal of Rehabilitation Medicine, vol. 44, pp. 186-188, 2012. J_Rehab_Medicine_2012_Final_press_version.pdf (864.23 KB)
J_Rehab_Medicine_2012_Final_press_version.pdf (864.23 KB), “Robot-Assisted Training of Arm and Hand Movement Shows Functional Improvements for Incomplete Cervical Spinal Cord Injury”, American Journal of Physical Medicine & Rehabilitation, vol. 96, p. S171—S177, 2017. francisco2017AJPRM.pdf (188.09 KB)
francisco2017AJPRM.pdf (188.09 KB), “RiceWrist Robotic Device for Upper Limb Training: Feasibility Study and Case Report of Two Tetraplegic Persons with Spinal Cord Injury”, International Journal of Biological Engineering, vol. 2, pp. 27-38, 2012. IntlJBiologicalEngineering_2012_Kadivar.pdf (934.02 KB)
IntlJBiologicalEngineering_2012_Kadivar.pdf (934.02 KB), “Outcomes of Recent Efforts at Rice University to Incorporate Entrepreneurship Concepts into Interdisciplinary Capstone Design”, International Journal of Engineering Education, vol. 28, pp. 1-5, 2012. oden2012ijee.pdf (630.75 KB)
oden2012ijee.pdf (630.75 KB), “Neural activity modulations and motor recovery following brain-exoskeleton interface mediated stroke rehabilitation”, NeuroImage: Clinical, vol. 28, p. 102502, 2020. NeuroImage_2020_Bhagat_BMI_EEG_exo.pdf (3.86 MB)
NeuroImage_2020_Bhagat_BMI_EEG_exo.pdf (3.86 MB), “Multi-Sensory Stimuli Improve Distinguishability of Cutaneous Haptic Cues”, IEEE Transactions on Haptics, vol. 13, pp. 286-297, 2020. Sullivan_ToH_2020_multi-sensory.pdf (2.23 MB)
Sullivan_ToH_2020_multi-sensory.pdf (2.23 MB), “Improved Haptic Fidelity via Reduced Sampling Period with an FPGA-Based Real-Time Hardware Platform ”, ASME Journal of Computing and Information Science in Engineering, vol. 9, 2009. Full Text (PDF) (505.34 KB)
Full Text (PDF) (505.34 KB), “Flexible robotics with electromagnetic tracking improve safety and efficiency during in vitro endovascular navigation”, Journal of Vascular Surgery, vol. 63, pp. 285-286, 2016. Schwein2016 - Flexible robotics tracking.pdf (288.8 KB)
Schwein2016 - Flexible robotics tracking.pdf (288.8 KB), “Electromagnetic tracking of flexible robotic catheters enables "assisted navigation" and brings automation to endovascular navigation in an in vitro study”, Journal of vascular surgery, vol. 67, pp. 1274–1281, 2018. Schwein2017JVS.pdf (1.51 MB)
Schwein2017JVS.pdf (1.51 MB), “Design and optimization of an EEG-based brain machine interface (BMI) to an upper-limb exoskeleton for stroke survivors”, Frontiers in Neuroscience, vol. 10, 2016. FINS2016.pdf (629.45 KB)
FINS2016.pdf (629.45 KB), “Assessing Wrist Movement With Robotic Devices”, IEEE Transactions on Neural Systems and Rehabilitation Engineering, vol. 26, pp. 1585–1595, 2018. rose2018ieee-wrist.pdf (2.28 MB)
rose2018ieee-wrist.pdf (2.28 MB) “Spatial and Temporal Movement Characteristics after Robotic Training of Arm and Hand: A Case Study of a Person with Incomplete Spinal Cord Injury”, IEEE IROS. San Francisco, CA, 2011. IROS 2011 Eng Kadivar.pdf (442.85 KB)
IROS 2011 Eng Kadivar.pdf (442.85 KB), “SOM and LVQ classification of endovascular surgeons using motion-based metrics”, Workshop on Self-Organizing Maps (WSOM). pp. 227-237, 2016. WSOM_2016.pdf (1.22 MB)
WSOM_2016.pdf (1.22 MB) “Robotic Training and Kinematic Analysis of Arm and Hand after Incomplete Spinal Cord Injury: A Case Study.”, IEEE ICORR. Zurich Switzerland, 2011. PID1757607[1].pdf (542.86 KB)
PID1757607[1].pdf (542.86 KB), “Robotic training and clinical assessment of forearm and wrist movements after incomplete spinal cord injury: A case study”, 2011 IEEE International Conference on Rehabilitation Robotics. pp. 619-622, 2011. yozbatiran2011ieee.pdf (302.65 KB)
yozbatiran2011ieee.pdf (302.65 KB), “The Rice Haptic Rocker: Comparing Longitudinal and Lateral Upper-Limb Skin Stretch Perception”, EuroHaptics, vol. II. Springer International Publishing, Pisa, Italy, pp. 125-134, 2018. clark 2018 eurohaptics reduced.pdf (286.16 KB)
clark 2018 eurohaptics reduced.pdf (286.16 KB), “The rice haptic rocker: Altering the perception of skin stretch through mapping and geometric design”, Haptics Symposium. IEEE, San Francisco, CA, pp. 192-197, 2018. Clark_2018Haptics (1.01 MB)
Clark_2018Haptics (1.01 MB), “The Influence of Cue Presentation Velocity on Skin Stretch Perception”, 2019 IEEE World Haptics Conference (WHC). 2019. Kim_2019_WorldHaptics_SkinStretchCueVelocity.pdf (256.42 KB)
Kim_2019_WorldHaptics_SkinStretchCueVelocity.pdf (256.42 KB), “The Influence of Cue Presentation Velocity on Skin Stretch Perception”, 2019 IEEE World Haptics Conference (WHC). 2019. Kim_2019_WorldHaptics_SkinStretchCueVelocity.pdf (256.42 KB)
Kim_2019_WorldHaptics_SkinStretchCueVelocity.pdf (256.42 KB), “Improving Perception Accuracy with Multi-sensory Haptic Cue Delivery”, EuroHaptics, vol. II. Springer International Publishing, Pisa, Italy, pp. 289-301, 2018. dunkelberger 2018 eurohaptics compressed.pdf (783.8 KB)
dunkelberger 2018 eurohaptics compressed.pdf (783.8 KB)