Abstract: Various embodiments of this invention disclose a dynamically responsive shock attenuation system for apparel intended to protect boney areas of the body where skeletal structures are close to the surface and soft tissue layers are thin, that comprises two or more materials with different, narrowly prescribed physical properties which, when used together, produce a dynamic, continuous, and proportional response over a wide range of impact forces. In various embodiments of the invention, the two materials comprise a first material that exhibits generally Newtonian behavior to impact forces and a second material that exhibits generally non-Newtonian behavior to impact forces.

Abstract: Various embodiments of this invention disclose a dynamically responsive shock attenuation system for apparel intended to protect boney areas of the body where skeletal structures are close to the surface and soft tissue layers are thin, that comprises two or more materials with different, narrowly prescribed physical properties which, when used together, produce a dynamic, continuous, and proportional response over a wide range of impact forces. In various embodiments of the invention, the two materials comprise a first material that exhibits generally Newtonian behavior to impact forces and a second material that exhibits generally non-Newtonian behavior to impact forces.

Abstract: Various embodiments of this invention disclose a dynamically responsive shock attenuation system for footwear and/or apparel that comprises two or more materials with different, narrowly prescribed physical properties, which, when used together, produce a dynamic, continuous, and proportional response over a wide range of impact forces. In various embodiments of the invention, the two materials comprise a first material that exhibits generally Newtonian behavior to impact forces and a second material that exhibits generally non-Newtonian behavior to impact forces.

Abstract: An adjustable shock attenuating means comprises at least one arch element (1) and at least one tensile element (2) arranged between any two positions at a concave surface of the element (1) or between two ends of the arch element (1). This means further comprises at least one additional arch element (12) arranged intersecting with the arch element (1) or arranged with the arch element (1) side by side. The arch element (1) has a U-shaped cut-out (13, 14) at its two ends respectively and the tensile element (2) correspondingly has a connecting piece (23, 24) at its two ends respectively to be coupled with the U-shaped cut-outs (13, 14) of the arch element (1) with which the tensile element (2) is coupled with the arch element (1).

Abstract: Various embodiments of this invention disclose a dynamically responsive shock attenuation system for footwear that comprises two or more materials with different, narrowly prescribed physical properties, which, when used together, produce a dynamic, continuous, and proportional response over a wide range of impact forces. In various embodiments of the invention, the two materials comprise a first material that exhibits generally Newtonian behavior to impact forces and a second material that exhibits generally non-Newtonian behavior to impact forces.

Abstract: A method includes providing a first user with an ability to indicate a health status and receiving an indication of the health status. The method also includes assigning a health status and associated task requests to the first user into a record and providing the health status and task requests as corresponding to the first user. The method further includes enabling other users to select from one or more of the task requests and receiving an indication that a second user has selected a first task request associated with the health status. In addition, the method includes assigning the first task request associated with the health status and providing, to the other users, the health status as corresponding to the first user and the assigned first task request associated with the health status as assigned to the second user.

Abstract: Various embodiments of this invention disclose a dynamically responsive shock attenuation system for footwear and/or apparel that comprises two or more materials with different, narrowly prescribed physical properties, which, when used together, produce a dynamic, continuous, and proportional response over a wide range of impact forces. In various embodiments of the invention, the two materials comprise a first material that exhibits generally Newtonian behavior to impact forces and a second material that exhibits generally non-Newtonian behavior to impact forces.

Abstract: An adjustable shock attenuating means comprises at least one arch element (1) and at least one tensile element (2) arranged between any two positions at a concave surface of the element (1) or between two ends of the arch element (1). This means further comprises at least one additional arch element (12) arranged intersecting with the arch element (1) or arranged with the arch element (1) side by side. The arch element (1) has a U-shaped cut-out (13, 14) at its two ends respectively and the tensile element (2) correspondingly has a connecting piece (23, 24) at its two ends respectively to be coupled with the U-shaped cut-outs (13, 14) of the arch element (1) with which the tensile element (2) is coupled with the arch element (1).

Abstract: Various embodiments of this invention disclose a dynamically responsive shock attenuation system for footwear that comprises two or more materials with different, narrowly prescribed physical properties, which, when used together, produce a dynamic, continuous, and proportional response over a wide range of impact forces. In various embodiments of the invention, the two materials comprise a first material that exhibits generally Newtonian behavior to impact forces and a second material that exhibits generally non-Newtonian behavior to impact forces.

Abstract: Footwear providing enhanced protection against extreme landing impacts includes a sole having an elastomeric mid-sole with elastomeric pads combined in a heel recess thereof such that the pads act in series with each other and in parallel with the mid-sole during conjoint compression thereof. At least one of the pads includes a solid gel having a relatively high damping coefficient. In another embodiment, the heel of the mid-sole is replaced by a toroidal gas cushion and an elastomeric pad including a solid gel having a relatively high damping coefficient disposed in a central recess of the cushion such that the pad is recessed a selected distance below the upper surface of the cushion. The resilient pads may advantageously incorporate a plurality of gas-filled cells, and a solid gel pad may also be disposed in the mid-sole of the footwear below the ball of the wearer's foot for increased protection.

Abstract: Footwear providing enhanced protection against extreme landing impacts includes a sole having an elastomeric mid-sole with elastomeric pads combined in a heel recess thereof such that the pads act in series with each other and in parallel with the mid-sole during conjoint compression thereof. At least one of the pads includes a solid gel having a relatively high damping coefficient. In another embodiment, the heel of the mid-sole is replaced by a toroidal gas cushion and an elastomeric pad including a solid gel having a relatively high damping coefficient disposed in a central recess of the cushion such that the pad is recessed a selected distance below the upper surface of the cushion. The resilient pads may advantageously incorporate a plurality of gas-filled cells, and a solid gel pad may also be disposed in the mid-sole of the footwear below the ball of the wearer's foot for increased protection.