A system assesses activity and displays a unitless activity value. A detector senses activity of a user. A processor reads sensed activity data from the detector. A display displays the unitless activity value. An enclosure houses the detector and the processor. The processor periodically reads the sensed activity data from the detector and processes the data to generate an activity number, the number being used to generate the unitless activity value based upon a maximum number and a display range.

An injured musculoskeletal structure is mobilized relative to a juxtaposing support structure surface to isolate the injured musculoskeletal structure from forces transferred from adjoining musculoskeletal structures in order to alleviate pain, discomfort, inflammation, and further injury associated with such transferred forces.

An injured musculoskeletal structure is mobilized relative to a juxtaposing support structure surface to isolate the injured musculoskeletal structure from forces transferred from adjoining musculoskeletal structures in order to alleviate pain, discomfort, inflammation, and further injury associated with such transferred forces.

A knitted compression article with tubular or pocketlike receiving members for receiving at least one finger or toe of a wearer of the compression article, with a spacer element being disposed at least between two adjacent receiving members. Putting on such garment parts can be made easier and the fabrication of such garment parts can be simplified and, in particular, can be carried out in a single continuous knitting process without the need for subsequent sewing steps by providing that each receiving member has a front ply and a back ply and that the front ply and the back ply are seamlessly knitted to each other so as to create a tubular or pocketlike receiving member, with the spacer element or each spacer element being formed by connecting the front ply and the back ply to each other by a machine knitting technique.

A knitted compression article with tubular or pocketlike receiving members for receiving at least one finger or toe of a wearer of the compression article, with a spacer element being disposed at least between two adjacent receiving members. Putting on such garment parts can be made easier and the fabrication of such garment parts can be simplified and, in particular, can be carried out in a single continuous knitting process without the need for subsequent sewing steps by providing that each receiving member has a front ply and a back ply and that the front ply and the back ply are seamlessly knitted to each other so as to create a tubular or pocketlike receiving member, with the spacer element or each spacer element being formed by connecting the front ply and the back ply to each other by a machine knitting technique.

A device for avoiding excessive loads on the human foot when walking comprises a shoe insole having at least one force sensor for generating a measurement signal indicating loads and/or partial loads on the foot; an analyzing unit electrically connected to the at least one force sensor for analyzing the measurement signal of the at least one force sensor; an electric power source to provide electric power to the analyzing unit; and a feedback control signal generator which generates a feedback control signal on the basis of the analysis of the analyzing unit for monitoring loads and/or partial loads on the foot, e.g., by means of an actuator, wherein the sensitive components are disposed in a housing to protect them, in particular from water and/or pressure loads. Furthermore, a method for operating the device is provided.

A device for avoiding excessive loads on the human foot when walking comprises a shoe insole having at least one force sensor for generating a measurement signal indicating loads and/or partial loads on the foot; an analyzing unit electrically connected to the at least one force sensor for analyzing the measurement signal of the at least one force sensor; an electric power source to provide electric power to the analyzing unit; and a feedback control signal generator which generates a feedback control signal on the basis of the analysis of the analyzing unit for monitoring loads and/or partial loads on the foot, e.g., by means of an actuator, wherein the sensitive components are disposed in a housing to protect them, in particular from water and/or pressure loads. Furthermore, a method for operating the device is provided.

A fitness tracking system includes a shoe, a magnetometer, and a controller. The magnetometer is mounted on the shoe and is configured to generate three-axis direction data in response to movement of the shoe during a predetermined time period. The controller is operably connected to the magnetometer and is configured to generate two-axis calibrated direction data based on the three-axis direction data after the predetermined time period. The two-axis calibrated direction data corresponds to an orientation of the shoe during the predetermined time period.

A fitness tracking system includes a shoe, a magnetometer, and a controller. The magnetometer is mounted on the shoe and is configured to generate three-axis direction data in response to movement of the shoe during a predetermined time period. The controller is operably connected to the magnetometer and is configured to generate two-axis calibrated direction data based on the three-axis direction data after the predetermined time period. The two-axis calibrated direction data corresponds to an orientation of the shoe during the predetermined time period.

A three-layered shoe construction having a mating relationship between an outsole, an midsole, and an insole. The outsole having a shoulder portion and a plurality of non-linear grooves, the grooves creating flow channels to guide liquid off the outer surface of the outsole and providing additional flexibility; the dual density midsole having an angled portion and a first density in the forefoot area and a second density in the hind foot area, the second density being greater than the first density, the angled portion of the midsole mating with the shoulder portion of the outsole; and the insole having a plurality of curved grooves that cover the top face. The specific construction associated with the outsole, midsole and insole enhance traction, flexibility, cushioning, comfort, breathability and water displacement.