A helmet includes a transceiver configured to receive vehicle data from one or more sensors located on a vehicle. The helmet also includes an inertial movement unit (IMU) configured to collect helmet motion data of a rider of the vehicle and a processor in communication with the transceiver and IMU, and programmed to receive, via the transceiver, vehicle data from the one or more sensors located on the vehicle and determine a rider attention state utilizing the vehicle data from the one or more sensors located on the vehicle and the helmet motion data from the IMU.

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 blunt force sensor array for application to a non-planar surface includes a flexible thin-film substrate, a plurality of force sensors secured to the flexible thin-film substrate proximate to a center measurement point, a strain gauge secured on the flexible thin-film substrate proximate to the center measurement point, and a sensor interface configured to connect to external measurement and control circuitry. The sensor interface may be electrically connected to each of the force sensors and the strain gauge via traces disposed on the flexible thin-film substrate. The flexibility and shape of the flexible thin-film substrate may permit the blunt force sensor array to be applied to the non-planar surface to detect forces and strains experienced by the non-planar surface in response to a blunt force event on the non-planar surface.

An exposure-indicating supplied air respirator system comprises a head top, a clean air supply source and a portable personal communication hub. The head top comprises a visor that is sized to fit over at least a user's nose and mouth, a position sensor secured to the head top, and a head top communication module. The clean air supply source is connected to the head top that supplies clean air to the interior of the head top. The position sensor detects whether the visor is in a closed position or in an open position and the head top communication module communicates the visor position to the personal communication hub. If the personal communication hub receives a signal indicating the presence of a hazard, and if the visor is in an open position, an alert is generated.

Disclosed is a structure for fixing a riding recorder with helmet visor fasteners, including a visor, which is provided, in the inside thereof, with a plurality of first coupling members so as to be attached to a helmet with the first coupling members. A monitoring unit is mounted to a bottom of the visor and the monitoring unit includes at least one camera lens and a storage element such that when the monitoring unit is activated, the camera lens is operable to take images and stores the data of the images in the storage element.

The present disclosure includes a retrofit sensor module for use with a protective head top with a helmet and a visor. The sensor module includes a sensor housing and an attachment mechanism. The sensor housing encloses a head presence sensor to sense when the protective head top is being worn. The sensor housing also encloses a position sensor to sense the position of the visor relative to the helmet. The retrofit sensor module further comprises an attachment mechanism secured to the housing. The attachment mechanism mates with a first hinge component of a hinge assembly in the protective head top to removably install the sensor module into the protective head top, wherein the hinge assembly allows the visor to move relative to the helmet.

A method of using an augmented audio enhanced perception system, comprising: tracking at least one object with at least one helmet mounted sensing unit; processing at least one of the at least one tracked object and an ambient sound by a processing unit; and, providing at least one of a synthesized audio signal and a processed ambient sound to a first user of the system using an audio interface unit, to provide information concerning the at least one object to the first user.

A system for monitoring one or more environmental conditions associated with a working environment includes a wearable device configured to be worn by a worker and one or more environmental sampling sensors configured to monitor the one or more environmental conditions associated with the working environment and determine environmental sampling information based on the monitoring of the one or more environmental conditions. The system further includes a positioning sensor configured to determine positioning information for the worker, the positioning information for the worker including information regarding positioning of the worker relative to the working environment. The system includes a controller configured to receive the environmental sampling information, receive the positioning information from the positioning sensor, and determine, based on the environmental sampling information and the positioning information, if the one or more environmental conditions necessitates an alert to be presented to the worker.

A system for reducing traumatic brain injuries in players on a sports field includes a number of transmitters worn by at least some of the players; a plurality of sensors configured for placement on or near the sports field for receiving signals transmitted from the transmitters as the players move about on the field; a head-stabilizing component worn by at least one of the players that inhibits relative motion of the player's head when activated; and a processing element coupled with the sensors and in communication with the head-stabilizing component. The processing element determines locations of the players based on the signals transmitted from the transmitters worn by the players, determines if the players are likely to impact one another or an object on the field based on the locations of the players, and transmits an activating signal to the head-stabilizing component to inhibit relative motion of the player's head if the processing element determines the player is likely to impact another player or an object on the sports field.

An informatics system that can be head-worn under a helmet and used to provide a wearer's vital statistics and other information to a remote monitoring station, for example in connection with pre-hospital emergency care.