Abstract: An assisting torque setting apparatus and method, wherein the apparatus is configured to generate a reference gait model by applying body information of a user to a predetermined body model, and set an optimal assisting torque by adjusting an assisting torque provided from a walking assistance apparatus to the user based on the reference gait model is disclosed.

Abstract: A method for operating a robotic joint of a robotic system comprising selectively operating a clutch mechanism of a clutched joint module in an engaged state to cause a quasi-passive elastic actuator to enter an elastic state, the clutched joint module operating about and defining a joint of the robotic system. The method comprising effecting a first rotation of the joint to cause the quasi-passive elastic actuator to store energy during at least a portion of the rotation of the joint. The method comprising effecting a second rotation of the joint and causing the stored energy from the quasi-passive elastic actuator to be released in the form of an augmented torque applied to an output member of the clutched joint module. The method comprising selectively operating the clutch mechanism in a disengaged state to cause the quasi-passive elastic actuator to enter an inelastic state.

Abstract: A rehabilitation exercise device for upper and lower limbs is provided. The rehabilitation exercise device includes: a first support supporting a user's hand or foot; a second support supporting a user's forearm or calf; a pair of first hinges rotatably connecting the first support and the second support to each other; a third support supporting a user's upper arm or thigh; a pair of second hinges rotatably connecting the second support and the third support to each other; and a distance adjustment part configured to adjust a distance between the first support and the third support by adjusting length of the second support.

Abstract: Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for an exosuit activity transition control structure. In some implementations, sensor data for a powered exosuit is received. The sensor data is classified depending on whether the sensor data is indicative of a transition between different types of activities of a wearer of the powered exosuit. The classification is provided to a control system for the powered exosuit. The powered exosuit is controlled based on the classification.

Abstract: In one aspect, an orthosis for increasing range of motion of a body joint generally includes first and second dynamic force mechanisms for simultaneously applying a dynamic force to body portions on opposite sides of a body joint.

Abstract: A method for operating a robotic joint of a robotic system comprising selectively operating a clutch mechanism of a clutched joint module in an engaged state to cause a quasi-passive elastic actuator to enter an elastic state, the clutched joint module operating about and defining a joint of the robotic system. The method comprising effecting a first rotation of the joint to cause the quasi-passive elastic actuator to store energy during at least a portion of the rotation of the joint. The method comprising effecting a second rotation of the joint and causing the stored energy from the quasi-passive elastic actuator to be released in the form of an augmented torque applied to an output member of the clutched joint module. The method comprising selectively operating the clutch mechanism in a disengaged state to cause the quasi-passive elastic actuator to enter an inelastic state.

Abstract: The present invention relates to an apparatus and a method for neuromuscular stimulation which is useful for stimulation of weak muscles in general, in sports clinical mode for muscle growth and endurance and in clinical mode for muscular rehabilitation. EMG signals are received from the subject adjacent a muscle whose contraction is to be stimulated. A succession of stimulation (STIM) pulses are supplied to the muscle to be stimulated. The EMG-receiving module is operated during quiescent periods between successive pulses, and the amplitude of stimulation pulses supplied to the subject in the succession is modulated proportionately depending on the a detected voluntary component of the received EMG signals. Modulation is in real time during supply of stimulation pulses whereby the subject is given a sensation of natural muscle control and/or the possibility for greater precision of neuromuscular control.

Abstract: The present invention relates to a knee joint rehabilitation instrument. The knee joint rehabilitation instrument of the present invention includes a thigh fixing unit into which a thigh of a leg requiring rehabilitation is inserted and thereby fixed; a shin fixing unit which is disposed next to the thigh fixing unit and into which a shin of the leg requiring rehabilitation is inserted and thereby fixed; and a knee position guide which is disposed between the thigh fixing unit and the shin fixing unit and guides a position of a knee when inserting the leg requiring rehabilitation into the thigh fixing unit and the shin fixing unit.

Abstract: A method and apparatus for recognizing a motion of a user are provided. The apparatus may map each of right leg angle information and left leg angle information to context information by comparing each of the right leg angle information and left leg angle information to a comparison value and/or preset threshold, may generate a motion event corresponding to the context information based on a criterion, and may recognize the motion of the user based on the motion event and a previous motion of the user.

Abstract: A clutched joint module of a robotic system comprising an output member operable to couple to a first support member; an input member operable to couple to a second support member; a primary actuator operable to apply a primary torque to the output member to rotate the first and second support members relative to one another about an axis of rotation of the clutched joint module; a quasi-passive elastic actuator coupled to the input member and operable to apply an augmented torque to the output member that combines with the primary torque to rotate the output member about the axis of rotation; and a clutch mechanism operably coupled to the primary actuator and the quasi-passive elastic actuator operable in an engaged state or a disengaged state to actuate and deactivate the quasi-passive elastic actuator and to facilitate application or removal of the augmented torque.

Abstract: A walking assistance apparatus and a method of controlling the walking assistance apparatus are disclosed. The method may include measuring a movement of a hip joint of a user wearing the walking assistance apparatus and a movement of another portion of a body of the user, correcting movement information of the hip joint based on movement information of the other portion of the body, and controlling a torque to be applied to the walking assistance apparatus based on the corrected movement information of the hip joint.

Abstract: A system, an apparatus, and a method for measuring muscle stiffness in a predetermined joint of an individual are provided. The system and apparatus comprises a measuring unit and a processing unit. The measuring unit is configured to be applied to a body segment of the predetermined joint. The processing unit is configured to: receive a plurality of data sets from the at least one measurement device, analyze the plurality of data sets for one or more indications of an elicited stretch reflex, and calculate a muscle stiffness score. The muscle stiffness score is based on at least a difference between a first stiffness and a second stiffness. The first stiffness is determined from the first subset, and the second stiffness is determined from the second subset.

Abstract: A driving device including a driving source configured to rotate forward or reversely, a first wire and a second wire connected to the driving source, a first joint connected to the first wire to rotate in a moving direction of the first wire, and a second joint connected to the second wire to rotate in a moving direction of the second wire is disclosed.

Abstract: Systems for machine-based rehabilitation of movement disorders including gait therapy applications can apply controlled forces to the pelvis and/or other body parts including knee and ankle joints. Cable-driven systems for gait therapy applications can apply controlled forces to, in respective embodiments, the pelvis and the pelvis, knee and ankle joints. In further embodiments, systems for gait therapy can be treadmill-based or walker-based. In embodiments, a controlled downforce is applied to the hip with augmentation including supportive forces. In further embodiments, the technology is activated through cables that provide support and limb-flexing moments with low inertia and friction resistance. In further embodiments, assistance is configured for gait therapy in children.

Abstract: A gait orthotic device, such as a powered exoskeleton, includes at least one joint; at least one actuator configured to cause movement of the device at the joint; a cushioning mechanism coupled to the device for absorbing energy or spreading a force during an impact with a surface or object; and a controller. The controller is configured to determine when a fall is occurring and direct the actuator to: orient the device so the cushioning mechanism makes contact with the surface or object during the fall; or reduce a kinetic energy of the device during the fall by performing positive joint work. The cushioning mechanism can take various forms, including an airbag, a spring, a bumper, a roll bar or a kickstand. Preferably, the cushioning mechanism is an airbag in the form of an airbag module that is detachably coupled to the device for removal and replacement.

Abstract: A multi-limb exercise machine and method that includes a plurality of user-movable input components, an input measurement device associated with each of the input components, a feedback device for providing the user with output information that indicates the difference between a current performance level and a performance target, and a processor that receives input information about user effort applied to each of the input components and communicates the output information to the feedback device. The input components are each configured to be moved by a limb of a user and to resist being moved. The processor determines the difference between performance levels based at least in part on a reward bias that decreases the difference more for effort applied to one of the input components than for effort applied to another of the input components.

Abstract: A neuromuscular model-based controller for a robotic limb having at least one joint includes a neuromuscular model having a muscle model, muscle geometry and reflex feedback loop to determine at least one torque or impedance command to be sent to the robotic limb. One or more parameters that determine relation between feedback data and activation of the muscle model are adjusted consequent to sensory data from at least one of an intrinsic sensor and an extrinsic sensor. A controller in communication with the neuromuscular model is configured to receive the at least one torque or impedance command and controls at least one of position, torque and impedance of the robotic limb joint.

Abstract: The present invention relates to devices and methods for exercising the lower limbs, in particular for exercising lower limbs. The devices are suitable for training the lower limbs of persons suffering from paraplegia or hemiplegia or musculoskeletal disorders in general. In some aspects, the present invention relates to powered articulated systems (ASs) and to the rehabilitation by aid of said ASs. The parallel or hybrid ASs of the invention are based on a parallel or hybrid, lambda-type framework and are controlled by a data processing unit. The ASs are preferably controlled by a closed-loop, real time control system.

Abstract: An ankle flexion and extension machine including a lower leg backing beam having upper and lower ends; a support arm cantilevering from the lower leg backing beam; an arm mounting pivot joint interconnecting the lower leg backing beam's lower end and the support arm's proximal end; a foot plate; a plate mounting pivot joint interconnecting the foot plate and the support arm's distal end, the plate mounting pivot joint being adapted for facilitating dorsiflecting and plantarflecting pivoting movements of the foot plate with respect to the lower leg backing beam; a reversible electric motor connected operatively to the foot plate, the reversible electric motor being adapted for driving the pivoting movement of the foot plate; a floor support base; and a triangulating frame supporting the lower leg backing beam, the support arm and the foot plate over the floor support base.

Abstract: [Problem to be Solved] The problem to be solved by the present invention is to reduce the load applied to the wearer by correcting a parameter in correspondence with detectivity of biosignals. [Means to Solve Problem] The calibration controlling part 162 of the movement assisting apparatus 10 enables the power amplifying part 158 to apply a driving force of the driving source 140 as a load (input torque) from the load generating part 164 to the wearer 12 when the wearer 12 wears the movement assisting wearing device. Then, the wearer 12 applied with the driving force of the driving source 140 generates power from the skeletal muscles by performing a predetermined calibration operation. Accordingly, the physical phenomenon detecting part 142 detects joint angle along with the calibration operation, and the biosignal detecting part 144 detects myoelectric signals.

Abstract: A rehabilitation system that combines robotics and interactive gaming to facilitate performance of task-specific, repetitive, upper extremity/hand motor tasks, to enable individuals undergoing rehabilitation to improve the performance of coordinated movements of the forearm and hand is disclosed. More specifically, the rehabilitation system includes a two degree-of-freedom (DOF) robotic, upper limb rehabilitation system and interactive gaming hardware that is coupled to a computer, to provide a virtual reality-like environment.

Abstract: A human joint rehabilitation apparatus, the apparatus includes a movable platform configured to support a portion of a patient's body including the joint, and a motorized mechanical energy source configured to move at least a portion of the platform to apply motion to the joint, wherein the patient dynamically controls the motorized mechanical energy source to operate the motion of the joint.

Abstract: A muscular integral development system for resistance (MIDSYR) to develop or exercise muscles of a body of an user. The system is directed to develop an area of the body or specific muscle group, such as for example the abdominals, pectorals, biceps, buttocks or leg muscles. Furthermore, the present invention relates to an equipment to achieve weight loss, cardiovascular exercise or rehabilitation.

Abstract: A knee extension assist device that includes: a frame, a support structure, a base and an articulated knee brace. The frame has a first section pivotably connected to a second section by a pair of hinges. The support structure is slidably attached to the frame to provide pivotal movement of the two sections. The base includes a motor that moves the frame between extended and retracted positions. The articulated knee brace receives a patient' leg and has a pair of upper legs connected by a pair of hinges to a pair of lower legs. A pair of shafts connects the hinges in the brace to the hinges on the frame and a pair of connecting members connects the lower legs to the second section of the frame. The pivotal movement of the frame causes a force to be exerted on the soft tissues in the knee of the patient.

Abstract: An exercise device includes an exercise brace, a first strap, a second strap and a resistance band. The exercise brace includes a first frame member and a second frame member that pivotably couples to the first frame member. The first strap couples to the first frame member about an end portion thereof to temporarily attach the exercise device to a user. Similarly, the second strap couples to the second frame member about an end portion thereof to temporarily attach the exercise device to the user. The resistance band couples to the exercise brace such that the resistance band creates a resistance to pivoting movement between the first frame member and the second frame member.

Abstract: A method is described for providing deficit-adjusted adaptive assistance during movement phases of an impaired joint. The method includes determining, on a processor, a current movement phase for a compound joint function based on sensor data. The method further includes determining, on the processor, a respective robot state parameter trace for each movement phase in a normal and impaired subject. The method further includes determining, on the processor, a deficit parameter for each movement phase. The method further includes determining, on the processor, an adaptive magnitude for the robot applied torque based on the deficit parameter of the current movement phase. The method further includes applying, to the robot joint, the adaptive magnitude for the robot applied torque for the current movement phase, based on an adaptive timing for the current movement phase. An apparatus is also described for providing deficit-adjusted adaptive assistance during movement phases of the impaired joint.

Abstract: A lower limb orthotic device includes a thigh link connected to a hip link through a hip joint, a hip torque generator including a hip actuator and a first mechanical transmission mechanism interposed between the thigh link and the hip link, a shank link connected to the thigh link through a knee joint, a knee torque generator including a knee actuator and a second mechanical transmission mechanism interposed between the thigh link and the shank link, and a controller, such as for a common motor and pump connected to the hip and knee torque generators, for regulating relative positions of the various components in order to power a user through a natural walking motion, with the first and second mechanical transmission mechanisms aiding in evening out torque over the ranges of motion, while also increasing the range of motion where the torque generators can produce a non-zero torque.

Abstract: A leg assist device having an abnormality management procedure which appropriately adapts to an abnormal situation is provided. The leg assist device is provided with a leg attachment and a controller. The leg attachment comprises upper and a lower links connected with a rotary joint, and an actuator. The upper link is to be attached to the upper leg of the user. The lower link is to be attached to the lower leg of the user. The actuator swings the lower link relative to the upper link. The controller outputs the commands so that the swing angle of the lower link follows a target trajectory. Further, the controller executes a first abnormality management process in which the controller shuts off torque transmission from the actuator to the user when the controller detects an abnormality before outputting the commands to the actuator.

Abstract: Second joints are provided in positions where a seating unit is restrained from swinging relative to leg links due to a force acting on the seating unit from upper limb links through the intermediary of the second joints. A motion not intended by a user can be restrained from being generated due to a force acting from the upper limb links provided in the upper limbs.

Abstract: A lower extremity exoskeleton, configurable to be coupled to a person, includes: leg supports configurable to be coupled to the person's lower limbs and designed to rest on the ground during stance phases, with each leg support having a thigh link and a shank link; two knee joints, each configured to allow flexion and extension between respective shank and thigh links; an exoskeleton trunk configurable to be coupled to the person's upper body, rotatably connectable to the thigh links of the leg supports, allowing for the flexion and extension between the leg supports and the exoskeleton trunk; two hip actuators configured to create torques between the exoskeleton trunk and the leg supports; and at least one power unit capable of providing power to the hip actuators. In use, power is supplied to the hip actuators in an amount to reduce the energy consumed by a user during a walking cycle.

Abstract: An orthosis for stretching tissue around a joint of a patient between first and second relatively pivotable body portions. The orthosis includes a first arm member affixable to the first body portion and including a first extension member extending therefrom. A second arm member affixable to the second body portion is also included and has a second extension member having an arcuate shape extending therefrom. A third arm member including a third extension member having an arcuate shape extending therefrom is interposed between the first and second arm members. The third extension member is slidably connected to the first arm member and the second extension member is operatively connected to the third arm members, such that the second arm members travel along an arcuate path defined by the second extension member when the second arm member is moved from a first position to a second position relative to the first and third arm members.

Abstract: A rotation restricting device for restricting the rotation of a rotating part with respect to a base part, comprising a stopper supported so as to be capable of rotating around an axis of rotation of the base part, a lock mechanism capable of switching between a state preventing and a state allowing the rotation of the stopper with respect to the base part, a first block provided on the rotating part and capable of moving between a position interfering with and a position not interfering with a rotation path of the stopper, and a second block provided on the rotating part and capable of moving between a position interfering with and a position not interfering with the rotation path of the stopper. In a state where the rotation of the rotating part with respect to the base part is not restricted, both the first block and the second block are in the position interfering with the rotation path of the stopper, and the stopper is positioned between the first block and the second block.

Abstract: A rehabilitation chair system, comprising: a seat adapted for sitting of a human thereon; at least one extender adapted to move relative to said seat; at least one sensor which generates an indication of a balance state of said human; and a controller configured to move said extender while measuring said balance state using said at least one sensor.

Abstract: Gait training apparatus and method for use thereof for providing leg swing assistance to a patient. The apparatus comprises a support structure and one or more leg orthoses attached to the support structure, each leg orthosis comprising a thigh member attached to the support structure at a hip joint, and a shank member attached to the thigh member at a knee joint. Both members have respective connectors for securing them to the corresponding body parts of the patient. The hip joint and knee joint are each biased by biasing members. The support structure may comprise a frame defining a patient activity region, including a base, a back support, a pair of support handles, and a weight support member mounted above the activity region. A method of using the device comprises selecting parameters for the biasing members using information about the patient.

Abstract: A walking assistance device includes a seating member configured to provide seating for a user to sit astride, and leg links connected to the seating member. The seating member includes: a supporting member configured to support the user sitting on the seating member from below the seating member; a movable member configured to contact an inguinal region of the user supported by the supporting member and to be movably supported by the supporting member; and at least one elastic member provided between the movable member and the supporting member and configured to be deformable in accordance with a force applied from the inguinal region of the user to the movable member.

Abstract: A wearable action-assist device which assists or executes an action of a wearer by substituting for the wearer is provided with an action-assist tool 2 having an actuator 201 which gives power to the wearer 1, a biosignal sensor 221 which detects a wearer's biosignal, a biosignal processing unit 3 which acquires from a biosignal “a” detected by the biosignal sensor a nerve transfer signal “b” for operating a wearer's muscular line skeletal system, and a myoelectricity signal “c” accompanied with a wearer's muscular line activity, an optional control unit 4 which generates a command signal “d” for causing the actuator 201 to generate power according to the wearer's intention using the nerve transfer signal “b” and the myoelectricity signal “c” acquired by the biosignal processing unit 3, and a driving current generating unit 5 which generates a current according to the nerve transfer signal b and a current according to the myoelectricity signal “c”, respectively, based on the command signal “d” generated by th

Abstract: A coil spring 14 is provided in a leg link 3. In the case where an extent of flexion of the leg link 3 is not more than a predetermined extent, the coil spring 14 applies, to a third joint 8, a first biasing force for preventing the extent of flexion of the leg link 3 from decreasing due to gravity acting on a body weight support device A. In the case where the extent of flexion of the leg link 3 exceeds the predetermined extent, the coil spring 14 applies, to the third joint 8, a second biasing force for decreasing the extent of flexion, where the second biasing force is larger than the first biasing force and increases with an increase of the extent of flexion. This enables a sufficient support force to be generated when standing up from a half-sitting posture or a crouching posture, without significantly interfering with walking.

Abstract: An exoskeleton for a leg of a user comprises a leg structure, a foot plate moveably mounted thereto, and a biasing member extending between the leg structure and the foot plate, the foot plate is moveably mounted to the leg structure between a first position in which the rearward portion extends downwardly and the forward portion extends upwardly and a second position in which the rearward portion extends upwardly and the forward portion extends downwardly and the foot plate is biased to the first position.

Abstract: An exoskeleton for a limb of a user wherein the limb has an upper portion connected to the body of a user and a lower limb portion is provided. The exoskeleton comprises a drive force transmission mechanism drivingly connecting a drive motor having an output axle aligned with the upper limb portion to one of the body portion and the lower limb portion. The drive force transmission mechanism comprises a first gear provided on an upper end of the lower limb portion or on the body portion and a first transfer member extending transverse to the motor axis.

Abstract: A leg locomotion device includes a frame having a leg coupler configured to mount the frame to a user's leg, the frame also includes two frame components movable relative to one another in response to movement of the user's leg, an energy harvesting device coupled to the frame and configured to harvest energy from the movement of the two frame components during a first portion of a stride, an energy storage device coupled to the energy harvesting device, the energy storage device configured to store harvested energy over more than one stride, and an assist device coupled to the frame, coupled to the energy storage device to receive energy therefrom, and configured to move the frame components relative to one another to selectively assist with movement of the user's leg during a second portion of the stride.

Abstract: An exoskeleton for a limb of a user utilizes an air bladder strap, which may be monitored and the pressure therein adjusted from time to time.

Abstract: A method for determining the motive instability of an individual using foot pressure, foot speed and foot direction data collected from sensors on shoes. The sensed data is used to determine the minimum number and the placement of pressure sensors in the shoe. The data from the sensors is processed to extract spatial and temporal parameters as desired. The data is grouped into segments based on a segmentation rule. The trend in each segment is determined. The variability of the trend in each segment is determined. The risk of fall is computed on the basis of the trend and variance. The computation is adjustable by emphasizing certain parameters in order to tailor the instability assessment to a specific individual.

Abstract: A gait training apparatus for the mechanical production of a natural gait pattern. The gait training apparatus comprises a first and a second multi-joint mechanism which are mechanically coupled to one another, as well as a drive for the input of a rotatory movement into the first multi-joint mechanism, and a foot support element which is coupled onto the second multi-joint mechanism. The second multi-joint mechanism moreover comprises a longitudinal displacement body which is longitudinally displaceable via a longitudinal guide relative to this and which is connected to the first multi-joint mechanism.

Abstract: This invention relates to a robotic exoskeleton comprising mechanical linkages that couple to one or more selected joints of a limb of a subject. The robotic exoskeleton may be provided with means for obtaining data respecting angular position, torque, and/or acceleration of at least one of the joints or the links of the mechanical linkages, and may be used for assessing, studying, diagnosing a deficit, and/or treating an impairment in sensorimotor function of a limb of a subject.

Abstract: An adjustable stretching system for stretching a leg of a user comprises a base, an adjustable elevation board configured to be adjustable in length, a seat cushion attached to the base, and a cushioned platform connectable to the base. The adjustable elevation board may be configured to be connected between the base and the cushioned platform.

Abstract: A fitness/medical device assisting the movement of the lower limbs during the walking activity is substantially composed of brackets firmly connected to the shoes, a set of substantially rigid rods (7, 7A) connecting the brackets with articulation joints (6, 6A, 8, 8A, 9), elastic or inextensible cables for connecting the brackets, and at least one spring (5) acting between the rods and the connecting cables. The shape and joints of the various components of the kinematic mechanism allows accumulating the energy produced by one of the lower limbs when getting in contact with the ground, in order to give it back to the other lower limb when lifting from the ground, so producing a great reduction of the energy needed in the walking activity and at the same time promoting the acquisition of a correct posture.

Abstract: In one example, a rehabilitation device includes a first element having first and second spaced-apart, generally parallel elongate members having proximal and distal ends. A second element is rotatably coupled to the first element and includes first and second spaced-apart, generally parallel elongate members having proximal and distal ends. One of the first and second elements is angularly adjustable relative to the other. A measurement device includes a measurement element connected to one of the first and second elements and configured for rotation relative to one of the first and second elements, such that when the rehabilitation device is operably disposed with respect to a joint of a patient, the measurement element is arranged for contact with anatomy of the patient. Finally, a scale is disposed proximate the measurement element and indicates a position of the measurement element relative to another portion of the rehabilitation device.

Abstract: Powered orthosis systems and methods are disclosed. An orthosis system includes a frame, a trunk brace adapted to be secured to a user's trunk, a trunk joint coupling the trunk brace to the frame, an upper leg brace adapted to be secured to a user's upper leg, a hip joint coupling the upper leg brace to the trunk brace, a lower leg brace adapted to be secured to a user's lower leg, a knee joint coupling the lower leg brace to the upper leg brace, and a controller. The hip joint or knee joint includes an actuator operable to rotate the adjacent braces relative to each other. The controller is programmed to operate the actuator. An orthosis method includes securing a user to the orthosis system, enabling the user to walk while secured to the orthosis system, and actuating the hip or knee actuator to rotate the adjacent braces.

Abstract: A rehabilitation device for legs has a foot piece mounted on a set of track rails, the foot piece is movable through knee extension and flexion, as well as through an elastic band looped around the back. By moving the foot piece, users are able to redevelop and strengthen muscles in the lower leg. Accompanying the foot piece on the track is a slider. The slider measures the distance the user is able to move the foot piece through a plurality of numbered holes in line with the track.

Abstract: The method of providing leg support for an ambulatory patient comprising providing a seat area to engage the crotch of the ambulatory patient, providing a foot type support below the foot of the ambulatory patient, providing one or more connection members between said seat area and said foot type support, and providing for securing said one or more connection members to the leg of said ambulatory patient devices and being facilitated by elevating the foot on the opposite leg.