A wearable garment, usable by athletes, workers, and the elderly or infirm, incorporates an easily operated manual activator/switch located in a readily accessible position on the garment. A user wearing the garment can operate the switch by merely touching the appropriate location on the surface of the garment. The switch is electrically coupled to a signaling device, such that operation of the switch activates the signaling device to transmit a signal or signals for summoning help or identifying the geographic location of the bearer of the signaling device, or otherwise assisting the bearer. Pockets and/or other forms of support on the garment can be provided to assist in carrying signaling devices coupled to the switch as well as ancillary equipment such as power supplies. The switch can be incorporated into and enclosed within the structure of the garment to protect it from ambient conditions such as moisture or dust, and conductors or other cables can be made to extend outside the exterior of the garment structure so as to facilitate interconnection of the activator switch with necessary related equipment.

A musical tone control apparatus includes at least one stick to be held by a person's hand and at least one detector to be attached to a person's leg. The stick and detector are respectively equipped with sensors each detecting a physical parameter accompanied with a spatial displacement thereof. Preferably, the sensor is constructed by an acceleration sensor for detecting an acceleration as the physical parameter. Based on detection results of the sensors, a generation of a muscial tone is controlled when the stick and detector are swung with the swinging motions of the person's arm and leg. In addition, a switch is provided to the stick, by which a tone color of the musical tone to be generated is controlled in response to an operation of this switch. Preferably, the musical tone control apparatus can provide two sticks to be held by both hands and two detectors to be attached to both legs.

In a garment which can receive a printed circuit board having a sound synthetic chip (10), a sound outputting element (12), a switch (14), a battery (15) and the like mounted on the printed circuit board (20) and which is capable of outputting a sound or breaking the output of the sound by operating the switch (14), said garment comprises a button exposing hole (32) for exposing at least a portion of the button (14a) of said switch (14) and said sound outputting element (12) in front of it; and a moisture-proof paper (70) being positioned between an inner surface of said non-woven fabric pocket (30) and an rear surface of said printed circuit board (20).

An audio interface garment includes systems for attenuating the influence of sound waves generated by audio output devices on output signals from a plurality of input devices an. In one embodiment, input signals which are applied to the audio output devices are combined by a mixer to form a mixed audio signal. A plurality of Widrow-Hoff least mean square adaptive filters each form a corresponding filtered signal based upon the mixed audio signal and the output signal from a corresponding one of the input devices. A plurality of processed signals are formed by differencing each filtered signal from the corresponding output signal. The weight values of the adaptive filters are modified according to the least mean square method. The processed signals provide signals in which the first sound waves are attenuated.

An audio speaker for incorporation into garments, upholstery, etc., has a diaphragm (10) and connecting wires (18) or switch (48), and a concave cover (20 or 44) made of a heat-molded textile having a ceramic textile covering. The speaker is attached by stitching (16) to an aperture (12) in a piece of conventional textile (14), for easy incorporation into a garment. The speaker may be sewn into the hood of a sports garment, or may be attached by the switch to a conducting area within a concave area of a garment such as a dress.