The present invention relates to a hat having a rear-view camera that includes a hat body with an insertion body and a brim, an upward/downward extension and contraction part disposed on the peak of the insertion body and thus extending upward or contracting downward vertically to freely adjust the rear-view camera disposed on top thereof upward and downward in height, and a forward/backward extension and contraction part freely adjusted forward and backward in length from the top of the brim to freely adjust a display part forward and backward, so that the rear-view camera is freely adjusted in height on the top of the insertion body of the hat body to allow a video providing a situation behind a wearer who wears the hat body to be transmitted to the display part.

Hat, helmet, and other headgear apparatus includes dry electrophysiological electrodes and, optionally, other physiological and/or environmental sensors to measure signals such as ECG from the head of a subject. Methods of use of such apparatus to provide fitness, health, or other measured or derived, estimated, or predicted metrics are also disclosed.

Hat, helmet, and other headgear apparatus includes dry electrophysiological electrodes and, optionally, other physiological and/or environmental sensors to measure signals such as ECG from the head of a subject. Methods of use of such apparatus to provide fitness, health, or other measured or derived, estimated, or predicted metrics are also disclosed.

Sensor module for sensing forces to the head of an individual and wirelessly transmitting signals corresponding thereto for analysis, tracking and/or reporting the sensed forces.

An illumination system comprises a single mounting bracket that fits across the front of a safety helmet and terminates on each end in a holding fixture that secures a flashlight in a removable arrangement. The mounting bracket is configured such that the pair of flashlights will be positioned on either side of, and against, the sides of the helmet. The mounting bracket includes one or more centrally-located apertures that accommodate pre-existing fasteners used, for example, to attach a shield to the front of the helmet (the shield carrying insignia identifying the emergency organization).

See What's Behind You is a security technology device that gives people the ability to see and monitor what's coming behind them at a 180 degree rear view angle whether it's human or animal while facing forward. A battery operated camera system is connected by video cable to a screen and memory card that captures recorded activities in real time video.

The technology is incorporated in any head gear such as caps, helmets and eyewear including sun visors.

It's used during personal outdoor activities that bring concern and it's used in professional industries such as branches of Homeland Security to enhance safety with rear vision. It exposes elements of surprise attacks giving people the advantage to conspicuously judge the situation, respond to it quickly and appropriately while lessening their chance of becoming a victim, the real time video images can be used to file a police report.

Apparatus for applying Transcranial Magnetic Stimulation (TMS) to a patient, wherein the apparatus comprises: a head mount for disposition on the head of a patient; and a plurality of magnet assemblies for releasable mounting on the head mount, wherein each of the magnet assemblies comprises a magnet for selectively providing a rapidly changing magnetic field capable of inducing weak electric currents in the brain of a patient so as to modify the natural electrical activity of the brain of the patient; wherein the number of magnet assemblies mounted on the head mount, their individual positioning on the head mount, and their selective provision of a rapidly changing magnetic field is selected so as to allow the spatial, strength and temporal characteristics of the magnetic field to be custom tailored for each patient, whereby to provide patient-specific TMS therapy, to assist in diagnosis or to map out brain function in neuroscience research. In one preferred form of the invention, each of the magnet assemblies comprises a magnet for selectively providing a rapidly changing magnetic field of at least 500-600 Tesla/second corresponding to a magnet movement speed of no less than 400 Hertz.

Disclosed herein are information capture systems and related methods. An information capture system includes a sensor secured to an object configured to be involved with a possible event. The sensor is configured to detect one or more stimuli that are associated with the possible event, and transmit a sensor signal indicating data corresponding to the one or more stimuli. The information capture system also includes a recording device configured to record information responsive to a triggering event determined from the sensor signal. A method includes analyzing sensor data from the sensor, determining, from the sensor data, that a triggering event occurred, and recording post-trigger information following the determination of the triggering event.

Some forms relate to a stretchable computing display device. The stretchable computing display device includes a stretchable base; a patterned conductive section mounted on the stretchable base, wherein the patterned conductive section includes a first portion and a second portion that is electrically isolated from the first portion; an electroluminescent material mounted on the stretchable base such that the electroluminescent material is between the first portion and the second portion of the patterned conductive section; an encapsulant that covers at least a portion of the patterned conductive section; and a textile such that the stretchable base is mounted on the textile, wherein the textile is part of a garment.

Pulsed electromagnetic field (PEMF) apparatuses and methods of making and using them. In particular, described herein are two-part PEMF apparatuses that include a self-contained, lightweight, small, compact (e.g., in some variations, wearable) generator unit that is adapted to releasably and replaceably mate with an applicator unit. The generator unit typically includes a power source and a controller that generated PEMF waveforms to be applied, including the shape and timing of the PEMF waveforms. The applicator unit typically includes a radio frequency (RF) power amplifier, a loop antenna, and impedance matching circuitry for matching the impedances for the connection between the antenna loop and the RF power amplifier. Thus, the generator module may control the application of PEMF signals without requiring impedance matching between the separable generator unit and the applicator unit. The applicator unit can include a plurality of variable capacitors that can be used to tune the PEMF signals.