A garment being worn by a user is optimized by altering a feature of a garment including texture, shape and size, while the garment is still being worn by the user.

A garment comprising a central portion including a plurality of electrocardiogram leads, a plurality of auscultation acoustic sensor devices, a flexible respiratory sensor located so that it substantially circumscribes the garment, one or more blood pressure cuff portions located on an at least one arm portion of the garment, wherein the cuff portions are adapted to be loosened and/or tightened and a hardware device for sending and receiving signals via wired or wireless communication.

Conductive thread stitched stretch sensors are described. The conductive thread stitched stretch sensors include a textile configured to stretch in at least one dimension and a conductive thread having a resistance between a first point and a second point stitched to the textile in a stitch geometry, the stitch geometry configured to stretch the conductive thread as the textile is stretched in the at least one dimension such that the resistance of the conductive thread increases between the first point and the second point due to elongation of the conductive thread as the textile is stretched. Also described are garments including conductive thread stitched stretch sensors and methods for making such sensors.

The wearable article (100) comprises a first portion (101) having first and second opposed margins (103, 105) and a second portion (111) having first and second opposed margins (103, 105). The second portion (111) overlaps part of the first portion (101) in an overlapping region (121) bounded by the second margin (105) of the first portion (101) and the first margin (113) of the second portion (111). A pocket space (127) is formed between the first portion (101) and the second portion (111) in the overlapping region (121).

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).

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 techniques using, and objects embodying, an interactive fabric which is configured to sense user interactions in the form of single or multi-touch-input (e.g., gestures). The interactive fabric may be integrated into a wearable interactive garment (e.g., a jacket, shirt, or pants) that is coupled (e.g., via a wired or wireless connection) to a gesture manager. The gesture manager may be implemented at the interactive garment, or remote from the interactive garment, such as at a computing device that is wirelessly paired with the interactive garment and/or at a remote cloud based service. Generally, the gesture manager recognizes user interactions to the interactive fabric, and in response, triggers various different types of functionality, such as answering a phone call, sending a text message, creating a journal entry, and so forth.

Systems and methods for interactive textiles including conductive fibers are provided. An interactive textile may comprise a flexible substrate, an embroidered thread-pattern defining an ornamental feature on a first surface of the flexible substrate, and a touch input sensor comprising a set of conductive threads coupled to a second surface of the flexible substrate at a corresponding area of at least a portion of the embroidered thread pattern. The set of conductive threads form a conductive thread-pattern on the second surface that is conformal to the ornamental feature on the first surface at the portion of the embroidered thread pattern.

A performance monitoring system includes an athletic band or other article of apparel worn by a user, with a pocket supported by the article and defining a cavity, where the pocket has a sensor opening extending through an inner wall of the pocket and an access opening providing access to the cavity. The system also includes an electronic module received in the cavity such that the module can be inserted and removed from the cavity through the access opening. The module has a projection on an underside of the electronic module and a sensor mounted on the projection, where the projection extends through the sensor opening when the electronic module is received in the cavity and is configured to place the sensor in close proximity to skin of the user, such that the sensor is configured to sense a physiological parameter of the user.