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Spring Quarter Poster

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Emanuel David Reyes
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Thumb Exoskeleton Robotic Rehabilitation — The independent patient. Advisor: Professor David Reinkensmeyer, Ph. D. Background Stroke patients have difficulties with their hand movement and any currently in post-stroke rehabilitation are being treated by physicians with machines that assist the patient in small hand tasks. However, these methods are costly and do not allow for the patient to have their own assisting device with them at all times. Project Goal • Design a portable exoskeleton device aimed at assisting a patient open and close their thumb. Objectives • Have stroke patients test the effectiveness of a prototype. • Improve the overall design of the project after various modifications and tests. Future Progress • Design a internal battery holder for changing battery easily • Modify joystick to a comfortable position for controlling • Implement a pressure sensor to the design. Project Significance • 795,000 Americans each year have a stroke and 8 out of the 10 survivors will suffer from Hemiparesis, or one-sided weakness in the body. • Patients can become independent from a physician with a thumb exoskeleton. • Medical bills for these patients can also be reduced in the process. For more information, please contact: Jian Wang jianw5@uci.edu Alex Liu yangl19@uci.edu Annie Lee menghsul@uci.edu Han Zheng zhengh4@uci.edu Design • Front joystick for controlling servo’s rotation • Side extruded cuts are fitted by velcro straps to stably attached to patients’ hand • Servo connected to string attached to the bottom of casts control the mechanism of thumb movement December 2015 - Test and determine final approach for project. February 2016. - Purchase items and assembly of first prototype including testing. April 2016 - Implement joystick for patient to control device. Current CAD Prototype 3D Printed Sample Case November 2015 - Ordered first set of materials needed for testing during down selection process. October 2015 - Brainstorm different methods for an exoskeleton design. January 2016 - Design and redesign CAD modeling of casts and 3D printing. March 2016 - Purchase better materials and improve prototype. May 2016 - Finalize portable device and test on patients. June 2016 - Final Project Review and Report due. 3D Printed Exoskeleton Casts Joystick Switch 1425CR Servo Velcro strap

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Spring Quarter Poster

  • 1. Thumb Exoskeleton Robotic Rehabilitation — The independent patient. Advisor: Professor David Reinkensmeyer, Ph. D. Background Stroke patients have difficulties with their hand movement and any currently in post-stroke rehabilitation are being treated by physicians with machines that assist the patient in small hand tasks. However, these methods are costly and do not allow for the patient to have their own assisting device with them at all times. Project Goal • Design a portable exoskeleton device aimed at assisting a patient open and close their thumb. Objectives • Have stroke patients test the effectiveness of a prototype. • Improve the overall design of the project after various modifications and tests. Future Progress • Design a internal battery holder for changing battery easily • Modify joystick to a comfortable position for controlling • Implement a pressure sensor to the design. Project Significance • 795,000 Americans each year have a stroke and 8 out of the 10 survivors will suffer from Hemiparesis, or one-sided weakness in the body. • Patients can become independent from a physician with a thumb exoskeleton. • Medical bills for these patients can also be reduced in the process. For more information, please contact: Jian Wang jianw5@uci.edu Alex Liu yangl19@uci.edu Annie Lee menghsul@uci.edu Han Zheng zhengh4@uci.edu Design • Front joystick for controlling servo’s rotation • Side extruded cuts are fitted by velcro straps to stably attached to patients’ hand • Servo connected to string attached to the bottom of casts control the mechanism of thumb movement December 2015 - Test and determine final approach for project. February 2016. - Purchase items and assembly of first prototype including testing. April 2016 - Implement joystick for patient to control device. Current CAD Prototype 3D Printed Sample Case November 2015 - Ordered first set of materials needed for testing during down selection process. October 2015 - Brainstorm different methods for an exoskeleton design. January 2016 - Design and redesign CAD modeling of casts and 3D printing. March 2016 - Purchase better materials and improve prototype. May 2016 - Finalize portable device and test on patients. June 2016 - Final Project Review and Report due. 3D Printed Exoskeleton Casts Joystick Switch 1425CR Servo Velcro strap