Abstract: The present invention provides a novel wearable vibration device. According to an embodiment, the novel wearable vibration device delivering high energy vibration deep in to the muscles and soft tissues for muscle treatment comprising an upper soft fabric foam covered case encompassing at least a vibration motor a lithium ion battery, a control PCB, a control switch with LED display and a lower fabric covered case. The wearable vibration device delivers high energy vibration to the chosen muscle group and thereby, penetrates deep in to the muscle and to the soft tissues. The upper soft fabric foam covered case and lower fabric covered cases are fixed together by gluing or stitching. The control PCB drives vibration motor to set frequencies for vibration motor activations. Vibrations for the device are tuned at frequencies in the range of 30-50 Hz to increase muscle power and for other beneficial physiological effects.

Abstract: The present invention provides a novel wearable sensor module system. According to an embodiment, the novel wearable sensor module system includes a wearable electronic sensor module, a multi-layer conductive fabric at least a magnetic fixture, and at least a metallic fixture, wherein said multi-layer fabric makes contact with the metallic fixtures for providing a stable and durable electronic signal communication with the electronic sensor. The electronic sensor module includes an electronic sensor and an electronic contact magnetic fixture. The multi-layer fabric sensor includes an electrically conductive fabric member, a basic fabric and a semiconductor coated fabric. The electrically conductive fabric member and semiconductor coated fabric are in communication with the metallic fixture and magnetic fixture. Further, the metallic fixture is coated with a durable nano particle coating to provide low resistance electrical contact and additional coating to support washable module.

Abstract: The present invention provides a novel wearable vibration device. According to an embodiment, the novel wearable vibration device delivering high energy vibration deep in to the muscles and soft tissues for muscle treatment comprising an upper soft fabric foam covered case encompassing at least a vibration motor a lithium ion battery, a control PCB, a control switch with LED display and a lower fabric covered case. The wearable vibration device delivers high energy vibration to the chosen muscle group and thereby, penetrates deep in to the muscle and to the soft tissues. The upper soft fabric foam covered case and lower fabric covered cases are fixed together by gluing or stitching. The control PCB drives vibration motor to set frequencies for vibration motor activations. Vibrations for the device are tuned at frequencies in the range of 30-50 Hz to increase muscle power and for other beneficial physiological effects.

Abstract: The present invention provides a novel wearable vibration device. According to an embodiment, the novel wearable vibration device delivering high energy vibration deep in to the muscles and soft tissues for muscle treatment comprising an upper soft fabric foam covered case encompassing at least a vibration motor a lithium ion battery, a control PCB, a control switch with LED display and a lower fabric covered case. The wearable vibration device delivers high energy vibration to the chosen muscle group and thereby, penetrates deep in to the muscle and to the soft tissues. The upper soft fabric foam covered case and lower fabric covered cases are fixed together by gluing or stitching. The control PCB drives vibration motor to set frequencies for vibration motor activations. Vibrations for the device are tuned at frequencies in the range of 30-50 Hz to increase muscle power and for other beneficial physiological effects.

Abstract: A security device for use with a textile article is used to detect an open or closed state of a pocket or other enclosure in the article and to provide a warning to the user/wearer of the article. When a moveable closure of the article is moved from a closed configuration to an open configuration (or vice-versa, as the case may be) an electrical circuit is broken (or made) which is detected by an electronic processor. An alarm, such as an audible or visual indication, is then given electronically by the processor in response to the change in configuration.

Abstract: An electronic resistor user interface comprises flexible conductive materials and a flexible variably resistive element capable of exhibiting a change in electrical resistance on mechanical deformation and is characterised by textile-form electrodes (10,12), a textile form variably resistive element (14) and textile-form members (16) connective to external circuitry.

Abstract: An electronic resistor user interface comprises flexible conductive materials and a flexible variably resistive element capable of exhibiting a change in electrical resistance on mechanical deformation and is characterised by textile-form electrodes (10,12) a textile form variably resistive element (14) and textile-form members (16) connective to external circuitry.

Abstract: An electronic resistor user interface comprises flexible conductive materials and a flexible variably resistive element capable of exhibiting a change in electrical resistance on mechanical deformation and is characterised by textile-form electrodes (10,12), a textile form variably resistive element (14) and textile-form members (16) connective to external circuitry.

Abstract: An electronic resistor user interface comprises flexible conductive materials and a flexible variably resistive element capable of exhibiting a change in electrical resistance on mechanical deformation and is characterised by textile-form electrodes(10,12) a textile form variably resistive element (14) and textile-form members (16) connective to external circuitry.