A sole arrangement for an article of footwear with a gradient depth value is provided. In one aspect of the disclosure, the sole arrangement extending from an end of a posterior area of the sole arrangement to an end of an anterior area of the sole arrangement, wherein the posterior area of the sole arrangement being formed under a heel area and the anterior area of the sole arrangement being formed under a forefoot area of a foot. The sole arrangement having an upper facing surface and a ground engaging surface, wherein the upper facing surface being on an opposite side of the sole arrangement than the ground engaging surface. The sole arrangement having a maximum posterior depth value. The sole arrangement having a maximum anterior depth value. The maximum posterior depth value may be smaller than the maximum anterior depth value by a first margin.

A therapeutic pressure band for applying pressure across a muscle or muscle groups on a mammalian limb is described. The band is particularly well suited for treating “shin splints.” The band includes a plurality of straps that are connected together via a connecting material. Ends of each of the straps have adjustable fasteners for securing and tightening the band around a limb. The band also possesses a plurality of pressure members (e.g., elongated rubber tubes) that apply separate and discrete areas or points of pressure in a line across a muscle, tendon, bone, or muscle group and generally perpendicular to a longitudinal axis of the limb.

A seat assembly includes first and second bladders and a controller. The first bladder has a sensor configured to detect a pressure of the first bladder. The controller is configured to inflate the first bladder to a target pressure, as detected by the sensor, and to inflate the second bladder based on time expended for the first bladder to be inflated to the target pressure.

The present disclosure relates to a body massaging device and an operation method thereof, wherein, the body massaging device comprises a support holder detachably mounted on a lower limb of a body; and an anal massaging assembly mounted on the support holder for compressing and/or rubbing an anus of the body as well as perianal skin. The present disclosure provides a support holder to mount the body massaging device at a lower limb of the body and perform a compressing and/or rubbing massage on an anus of the body and a perianal skin by means of an anal massaging assembly mounted on the support holder, so as to stimulate sexually sensitive nerves densely distributed on the anus and the perianal skin, so that a user can obtain a stimulation effect different from the existing penis masturbation appliance or the inserted massaging appliance to stimulate the prostate, when the body massaging device of the present disclosure is used. Moreover, as the body massaging device which is mounted at a lower limb of the body is equivalent to a wearable massaging appliance and does not require a user to hold it for a long time, the user is less prone to fatigue during the use.

A method and device for controlling a walking assist device is disclosed. The method includes determining a first state variable for a gait state of a user wearing the walking assist device based on a gait of the user, obtaining a second state variable which is smoothed and time-delayed from the first state variable, obtaining a third state variable by applying a torque control variable to the second state variable, and determining an assist torque to be provided by the walking assist device based on the obtained third state variable.

The present invention relates to a movement-dependent stabilisation support system (100) for stabilising a moving body (200), which comprises a plurality of sensors (110), a plurality of actuators (120) and a control unit (130). The plurality of sensors (110) continuously detects movement parameters of the body (200), on which basis the control unit (130) determines whether there is an instability of the body (200). If it is determined that there is an instability, the control unit (130) selects a stabilisation strategy, according to which the actuators (120) are controlled. When controlled, the actuators (120) attached to the body (200) stiffen and limit the freedom of movement of the body (200), such that a movement in the direction of the imminent unstable state is prevented or suppressed. In this way, the body (200) is supported in its stabilisation and an imminent fall is prevented.

A wearable device and an exercise support method performed by the wearable device are disclosed. The exercise support method includes receiving exercise setting information associated with a lower body muscle that is selected by a user input, determining a torque profile to be applied to the wearable device based on the received exercise setting information, and operating an actuator of the wearable device based on the determined torque profile.

Systems and methods for identifying a condition of a user. A treatment apparatus is configured to be manipulated by the user for performing an exercise, and an interface is communicably coupled to the treatment apparatus. One or more sensors are configured to sense one or more characteristics of an anatomical structure of the user. A processing device and a memory is communicatively coupled to the processing device. The memory includes computer readable instructions, that when executed by the processing device, cause the processing device to: receive, from the sensors, one or more sensor inputs representative of the one or more of characteristics of the anatomical structures; calculate an infection probability of a disease based on the one or more characteristics of the anatomical structures; and output, to the interface, a representation of the infection probability.

A system is disclosed for stimulating venous and arterial circulation in a patient to prevent deep vein thrombosis, which includes a first inflatable garment sleeve configured to be wrapped around the left calf of the patient and having a first air input tube extending from an exterior surface thereof, a second inflatable garment sleeve configured to be wrapped around the right calf of the patient and having a second air input tube extending from an exterior surface of the second garment sleeve, a portable pump for cyclically inflating the first and second garment sleeves, and a bifurcated tube assembly for connecting the portable pump to the first and second air input tubes of the first and second garment sleeves.

A vertical oscillation auxiliary platform, wherein a drive mechanism drives an upper cover tread board to make vertical up-and-down movements with a transmission mechanism; when the drive mechanism drives a transmission shaft rotate, the transmission shaft drives lower parts of 8-shaped bearing blocks to rotate eccentrically, and upper parts thereof move horizontally; the 8-shaped bearing blocks drive one end of triangular bearing blocks to move horizontally with horizontal transmission rods, and the triangular bearing blocks, without moving a third end, convert horizontal movements at one end to be vertical movements at another end, and drive finally the upper cover tread board to generate stable vertical oscillation, so that singularity and stability of vertical movements of the upper cover tread board can be promised, and more stable and comfortable feeling and passive exercise effects can be gained, without deteriorating the exercise effects and exercise comfort due to additional disorganized lateral movements.