The present application provides a garment that includes: a sleeve, a cuff, a retainer, and a sleeve lining attached at one end thereof at a proximal end of the sleeve, the sleeve lining extendible outward sufficient to cover at least a portion of a wearer's hand and retractable inward at a distal end of the sleeve; the retainer having a first end attached at the distal end of the sleeve to the sleeve and the sleeve lining, wherein the retainer is configured to limit at least the retractable inward movement of the sleeve lining; the cuff is located at the distal end of the sleeve lining and comprises a padding removably coupled to the cuff at a location proximate to the wearer's palm.

Provided is an intelligent self-heating garment, whereby the temperature of the garment is adjusted according to the user's intuitive action based on the experience. The garment includes: a garment body; a heater provided in the garment body; a controller adjusting a heating temperature of the heater; and a temperature adjusting unit inputting an adjusting signal to the controller, and the adjusting signal being used for adjusting the heating temperature, wherein the temperature adjusting unit adjusts intensity of the adjusting signal according to a change in a size of an aperture provided in the garment body through which a body part of a user passes.

Provided is an intelligent self-heating garment, whereby the temperature of the garment is adjusted according to the user's intuitive action based on the experience. The garment includes: a garment body; a heater provided in the garment body; a controller adjusting a heating temperature of the heater; and a temperature adjusting unit inputting an adjusting signal to the controller, and the adjusting signal being used for adjusting the heating temperature, wherein the temperature adjusting unit adjusts intensity of the adjusting signal according to a change in a size of an aperture provided in the garment body through which a body part of a user passes.

One embodiment provides an apparatus. The apparatus includes a source conductive path to couple to a load conductive path and to a power source. The source conductive path is included in a garment and the load conductive path is related to a head mounted wearable device (HMWD).

One embodiment provides an apparatus. The apparatus includes a source conductive path to couple to a load conductive path and to a power source. The source conductive path is included in a garment and the load conductive path is related to a head mounted wearable device (HMWD).

This document describes an interactive object with multiple electronics modules. An interactive object (e.g., a garment) includes a grid or array of conductive thread woven into the interactive object, and an internal electronics module coupled to the grid of conductive thread. The internal electronics module includes a first subset of electronic components, such as sensing circuitry configured to detect touch-input to the grid of conductive thread. An external electronics module that includes a second subset of electronic components (e.g., a microprocessor, power source, or network interface) is removably coupled to the interactive object via a communication interface. The communication interface enables communication between the internal electronics module and the external electronics module when the external electronics module is coupled to the interactive object.

This document describes an interactive object with multiple electronics modules. An interactive object (e.g., a garment) includes a grid or array of conductive thread woven into the interactive object, and an internal electronics module coupled to the grid of conductive thread. The internal electronics module includes a first subset of electronic components, such as sensing circuitry configured to detect touch-input to the grid of conductive thread. An external electronics module that includes a second subset of electronic components (e.g., a microprocessor, power source, or network interface) is removably coupled to the interactive object via a communication interface. The communication interface enables communication between the internal electronics module and the external electronics module when the external electronics module is coupled to the interactive object.

An upper body garment with a vertical opening in the back (and no opening in the front) which opening is designed to be fully closed and which upper body garment is designed for use by individuals with disabilities or handicaps to make it easier for such individuals to be dressed in a manner that is appropriate for both public places indoors and outdoor use.

An upper body garment with a vertical opening in the back (and no opening in the front) which opening is designed to be fully closed and which upper body garment is designed for use by individuals with disabilities or handicaps to make it easier for such individuals to be dressed in a manner that is appropriate for both public places indoors and outdoor use.

An article of apparel and method include a structure configured to enclose a human body part, a pressure sensor array including multiple pressure sensors separately positioned at locations within the structure, wherein each pressure sensor is configured to output a signal indicative of an amount of pressure being exerted on the pressure sensor by an external mechanical force, an electronic display, and a controller. The controller is configured to receive signals from the pressure sensors and, based on a sequence and a timing of the signals as received, determine a command related to a function of a device. The electronic display is configured to display information related to the function.