A helmet includes a non-contact sensor for a living body, a cap body, and a headband attached to an inner side of the cap body. The headband is provided with a first projection and a second projection on a surface facing a front head portion (FD) of the cap body. The non-contact sensor for the living body includes a first housing having a first surface and a second surface opposing the first surface, a first claw portion provided on the first surface, and a second claw portion provided on the second surface. The first claw portion is brought into contact with and fixed to the first projection, and the second claw portion is brought into contact with and fixed to the second projection.

An augmented-reality system is combined with a surveying system to make measurement and/or layout at a construction site more efficient. A reflector can be mounted to a wearable device having an augmented-reality system. A total station can be used to track a reflector, and truth can be transferred to the wearable device while an obstruction is between the total station and the reflector. Further, a target can be used to orient a local map of a wearable device to an environment based on a distance between the target and the wearable device.

An augmented-reality system is combined with a surveying system to make measurement and/or layout at a construction site more efficient. A reflector can be mounted to a wearable device having an augmented-reality system. A total station can be used to track a reflector, and truth can be transferred to the wearable device while an obstruction is between the total station and the reflector. Further, a target can be used to orient a local map of a wearable device to an environment based on a distance between the target and the wearable device.

The present invention relates to security systems and methods for vehicles and/or vehicle users that prevent the theft of vehicles, and/or that guarantee the security of the vehicle user. In order to achieve the above, the system of the present invention has an enabling system that controls the ignition of the vehicle, and/or a device for helmets intended for the monitoring of the security of the user, and makes it possible to determine, for example, whether the user is wearing the helmet and is using the same correctly, or whether the vehicle user has suffered an impact. Specifically, the system of the present invention has an interactive system (mobile device) associated with the user which, depending on the need, signals the enabling system to enable the vehicle ignition, provided that at least one condition is fulfilled, where a condition may be that the interactive system is close to the enabling system and/or emits an alert message to the external device of a third party if any novelty is detected in the helmet device.

A smart rescue helmet for use by a rescuer at an action site is described. It includes a number of features enclosed in an outer shell which includes a shock-absorbing canopy and a visor. The features include a control module comprising a microcomputer contained inside the smart rescue helmet, a near-field display, a visible band camera, a thermal imaging camera, a sensor module monitoring physiological parameters along with a position of the rescuer; and a communication system.

A smart rescue helmet for use by a rescuer at an action site is described. It includes a number of features enclosed in an outer shell which includes a shock-absorbing canopy and a visor. The features include a control module comprising a microcomputer contained inside the smart rescue helmet, a near-field display, a visible band camera, a thermal imaging camera, a sensor module monitoring physiological parameters along with a position of the rescuer; and a communication system.

If a distance from a current position to a guide point is less than a predetermined distance, a normal output process and a stop process of a guide image are repeatedly performed. If a priority display request for a guide image is performed, a priority output process of the guide image is performed prior to the stop process. If an interval between the priority output process and the normal output process performed after the priority output process is short, the priority output process continues until the normal output process starts.

Headwear for locating people, such as construction workers, firefighters, mine workers, sandhogs, police officers and military personnel. The headwear is hardhat or helmet that tightly fits on a user's head. The headwear comprised of a LED-light, a built-in WiFi device, and power source. The LED-light provides light to the user. The WiFi device transmits the location of the user.

Headwear for locating people, such as construction workers, firefighters, mine workers, sandhogs, police officers and military personnel. The headwear is hardhat or helmet that tightly fits on a user's head. The headwear comprised of a LED-light, a built-in WiFi device, and power source. The LED-light provides light to the user. The WiFi device transmits the location of the user.

A personal protection system for providing a sterile barrier around medical/surgical personnel. The system may include a head unit over which surgical garment such as a hood or a toga may be suspended over. The surgical garment may include a sterile material and a shield configured to be disposed in front of the wearers face when disposed over the head unit. The shield may comprise an anti-reflective coating configured to reduce the glare observed by the individual through said shield. The head unit may comprises a light assembly that is disposed on the wearers side of the surgical garment, and an inner surface of said surgical garment may comprise a light reflective material configured to reduce the amount of light emitted from said light assembly that is reflected back toward the individual.