A head-mounted device capable of more highly accurately measuring the physical conditions of a wearer as a worker that are necessary for estimating the possibility of heat stroke is provided. A head-mounted device includes an outer shell; a first channel as a gap between a head of a wearer and the outer shell; a second channel provided in the outer shell and connected to the first channel; a fan configured to send air from one of the first channel and the second channel to the other; a salinity sensor configured to measure salt concentration of sweat of the wearer; a first humidity sensor configured to measure an absolute humidity of intake air entering one of the first channel and the second channel; and a second humidity sensor configured to measure an absolute humidity of exhaust air exiting from the other of the first channel and the second channel.

Apparatus for applying Transcranial Magnetic Stimulation (TMS) to an individual, wherein the apparatus comprises: a head mount for disposition on the head of an individual; and a plurality of magnet assemblies for releasable mounting on the head mount, wherein each of the magnet assemblies comprises a permanent magnet, and at least one of (i) a movement mechanism for moving the permanent magnet and/or (ii) a magnetic shield shutter mechanism, for selectively providing a rapidly changing magnetic field capable of inducing weak electric currents in the brain of an individual so as to modify the natural electrical activity of the brain of the individual; 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 individual, whereby to provide individual-specific TMS therapy, to assist in diagnosis or to map out brain function in neuroscience research.

Apparatus for applying Transcranial Magnetic Stimulation (TMS) to an individual, wherein the apparatus comprises: a head mount for disposition on the head of an individual; and a plurality of magnet assemblies for releasable mounting on the head mount, wherein each of the magnet assemblies comprises a permanent magnet, and at least one of (i) a movement mechanism for moving the permanent magnet and/or (ii) a magnetic shield shutter mechanism, for selectively providing a rapidly changing magnetic field capable of inducing weak electric currents in the brain of an individual so as to modify the natural electrical activity of the brain of the individual; 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 individual, whereby to provide individual-specific TMS therapy, to assist in diagnosis or to map out brain function in neuroscience research.

The present invention relates to an illuminating knitted hat comprising a hat body and an illuminating structure, wherein the illuminating structure comprises a light-condensing component, a light-scattering component and a main control circuit board, wherein a switching button is connected to a surface of the main control circuit board, and a charging interface is connected to the main control circuit board; by applying a pressing force to the switching button, the main control circuit board and lampwicks or a light panel are powered on to form a loop, so that the lampwicks are powered on to emit condensed light or the light panel is powered on to emit scattered light, thereby achieving the effect of illuminating, achieving the function of a condensing light by a downlight or illuminating by scattering light, increasing the illuminating range or scope.

The present invention relates to an illuminating knitted hat comprising a hat body and an illuminating structure, wherein the illuminating structure comprises a light-condensing component, a light-scattering component and a main control circuit board, wherein a switching button is connected to a surface of the main control circuit board, and a charging interface is connected to the main control circuit board; by applying a pressing force to the switching button, the main control circuit board and lampwicks or a light panel are powered on to form a loop, so that the lampwicks are powered on to emit condensed light or the light panel is powered on to emit scattered light, thereby achieving the effect of illuminating, achieving the function of a condensing light by a downlight or illuminating by scattering light, increasing the illuminating range or scope.

Eyewear apparatus includes dry electrophysiological electrodes and, optionally, other physiological and/or environmental sensors to measure signals such as EOG and 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.

Eyewear apparatus includes dry electrophysiological electrodes and, optionally, other physiological and/or environmental sensors to measure signals such as EOG and 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.

Earphone 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.

A method for putting on or taking off a piece of clothing or for closing, putting on, opening, or taking off a piece of luggage, including the steps of tightening or loosening by means of a tensioning element driven by a driven tension roller and a switching element. The tightening or loosening takes place by actuation of the switching element. The switching element has a number of contact-sensitive sensors which are arranged adjacent to one another and form a surface accessible to the user of the piece of clothing or of the piece of luggage. The method includes the steps of scanning the surface of the sensors by the user in a first direction, detecting the signal of the sensors by a controller, and causing a first tensioning force level or a first closing path of the tensioning element to be initiated by the controller and the electric motor.

A method for putting on or taking off a piece of clothing or for closing, putting on, opening, or taking off a piece of luggage, including the steps of tightening or loosening by means of a tensioning element driven by a driven tension roller and a switching element. The tightening or loosening takes place by actuation of the switching element. The switching element has a number of contact-sensitive sensors which are arranged adjacent to one another and form a surface accessible to the user of the piece of clothing or of the piece of luggage. The method includes the steps of scanning the surface of the sensors by the user in a first direction, detecting the signal of the sensors by a controller, and causing a first tensioning force level or a first closing path of the tensioning element to be initiated by the controller and the electric motor.