• Research

  • A Novel Soft Elbow Exosuit to Supplement Bicep Lifting Capacity

    This research presents the design of a soft elbow exosuit capable of providing supplemental lifting assistance by reducing muscle activity of the bicep muscle.  The aim is to improve the efficiency and endurance of workers who are tasked with repetitive lifting. The design consists of an array of pneumatically pressurized soft actuators, which are encased in nylon fabric that allows for a high force-to-weight ratio of 211.5 N/g.

  • Soft Poly-Limbs: Toward a New Paradigm of Mobile Manipulation for Daily Living Tasks

    We present the design and development of the fluid-driven, wearable, Soft Poly-Limb (SPL), from the Greek word polys, meaning many. The SPL utilizes the numerous traits of soft robotics to enable a novel approach in providing safe and compliant mobile manipulation assistance to healthy and impaired users. This wearable system equips the user with a controllable additional limb that is capable of complex three-dimensional motion in space.

  • Carpal Tunnel Syndrome Soft Relief Device for Typing Applications

    Carpal Tunnel Syndrome (CTS) affects roughly 3%-6% of the working population ages 18-64.  This affliction is caused by applying stress on the median nerve that is routed through the carpal tunnel while it is at a positive or negative angle, greater than 15 degrees in either direction, to the human wrist. The median nerve can become inflamed and swollen due to pressure from the palmar carpal ligament causing numbness, stiffness and in some cases severe pain. Tasks like typing can become nearly impossible when the median nerve is inflamed.

  • Soft Robotic Glove

    Soft Robotic Glove for Hand Assistance

    This work presents a portable, soft robotic glove designed to augment hand rehabilitation and/or offer assistance to individuals with functional grasp pathologies. The robotic glove utilizes soft actuators consisting of molded elastomeric chambers with fiber reinforcements that induce specific bending, twisting and extending trajectories under fluid pressurization. These soft actuators were mechanically programmed to match and support the range of motion of individual fingers.

  • A Light-reflecting Balloon Catheter for Atraumatic Tissue Defect Repair

    Closing small defects in the body typically requires stitching of tissues during surgery. Toward a minimally invasive approach, we engineered a balloon catheter with a reflective surface coating that could be used to adhere biodegradable patches to tissues. The device unfolds the patch and its adhesive, delivers ultraviolet (UV) light, and then applies pressure to stabilize the adhesive as the light cures the polymer.

  • Assistive Exoskeleton

    Assistive Exoskeleton for Injury Prevention during Downhill Walking

    This project presents a device designed to reduce muscular effort during downhill walking. The designed solution is a soft wearable exoskeleton consisting of an air spring, a wearable soft fabric interface that attaches the air spring to the user's body, and an integrated smart sensing and pneumatic control system. After prototyping of the device, initial evaluation was performed, showing that the device successfully produced a resistive torque of 5 Nm, decreasing torque on the knee by 10% for a 58 kg individual on a 20 degree slope.

  • soft robotics diagram

    Pneumatic Networks for Soft Robotics that Actuate Rapidly

    Soft robots actuated by inflation of a pneumatic network (a “pneu-net”) of small channels in elastomeric materials are appealing for producing sophisticated motions with simple controls. Although current designs of pneu-nets achieve motion with large amplitudes, they do so relatively slowly (over seconds). This work presents a new design for pneu-nets that reduces the amount of gas needed for inflation of the pneu-net, and thus increases its speed of actuation.

  • Soft Fiber-reinforced Bending Actuators

    Soft fluidic actuators consisting of elastomeric matrices with embedded flexible materials are of particular interest to the robotics community because they are affordable and can be easily customized to a given application. However, the significant potential of such actuators is currently limited as their design has typically been based on intuition. In this work, a soft bending actuator consisting of a hemi-cylindrical composite tube with anisotropic bulk material properties consisting of elastomer with embedded helically wound fibers and a thin flexible sheet is presented.

  • Surgical Retractors

    Soft-actuated Minimally Invasive Surgical Retractors

    Minimally invasive surgery (MIS) is a surgical technique that uses several small incisions—between 5mm and 15mm—rather than a single large incision to operate on tissues. While MIS provides a number of benefits over traditional open surgeries—including reduced pain and recovery times—significant time is spent mobilizing organs (removing the connective tissues that keep organs in place) and retracting them so that the organs of interest can be accessed during more complex procedures.

  • Wearable Gait Analysis System for Overstriding in Runners

    The wearable gait analysis system highlighted in this project is designed to monitor running gait without extensive equipment, thus shifting gait analysis out of training centers and giving runners the opportunity to correct their gait independently. This project features IMU technology to specifically target and reduce overstride in runners. By monitoring the shank angles throughout the cycle and determining the overstride angle at time of impact.