A helmet configured for improving the safety of a user of a personal mobility by measuring an electroencephalogram (EEG) of the user using an EEG detector provided in a helmet, determining an accident situation based on the measured EEG, and operating a safety device is provided. The helmet includes a body configured to form an exterior of the helmet and can be worn on a user's head; the EEG detector provided on the body and configured to detect EEG of the user; and a controller configured to determine an accident-related situation based on an EEG signal output from the EEG detector, and to generate a control signal for operating a safety device according to the determined accident-related situation.

A magnetic quick connect for a fluid delivery system includes a male coupling member and a female coupling member. The male coupling member defines a first outer fluid communication path and includes a first magnetic material. A first inner member is disposed within the first outer fluid communication path and defines a first inner communication path. The female coupling member defines a second outer fluid communication path and includes a second magnetic material. A second inner member is disposed within the second outer fluid communication path and defines a second inner communication path. The male and female coupling members are detachably held together by an attractive force between the first and second magnetic materials such that the first and second outer communication paths are held in fluid communication, and the first and second inner communication paths are held in fluid communication.

A helmet which has a plurality of substantially longitudinal members arranged side-by-side, the longitudinal members being in fluid communication with each other. It has a first inflated state in which the longitudinal members are distributed to form a substantially concave shape, and a second compressed state in which the longitudinal members lie flat and substantially coincident against each other. Each longitudinal member is separated from neighbouring longitudinal members by a tubular connecting member in a lattice configuration. The helmet may be made of HDPE or nylon.

Various embodiments of an accessory mounting device are disclosed. The device can be adapted to engage an elongated rail. The device can include a body having top, bottom, and first and second side surfaces. Each of the side surfaces can include a rail engagement portion adjacent the bottom surface of the body and an accessory engagement portion adjacent the top surface. The device can also include a locking mechanism including a lever connected to the body at a pivot, and a tab extending from the lever in a direction away from the bottom surface. In one or more embodiments, the locking mechanism can include first and second levers each connected to the body at a pivot. The lever can rotate about a pivot axis in a direction toward the top surface of the body when the locking mechanism is manipulated from a locked position to an unlocked position.

Various embodiments of an accessory mounting device are disclosed. The device can be adapted to engage an elongated rail. The device can include a body having top, bottom, and first and second side surfaces. Each of the side surfaces can include a rail engagement portion adjacent the bottom surface of the body and an accessory engagement portion adjacent the top surface. The device can also include a locking mechanism including a lever connected to the body at a pivot, and a tab extending from the lever in a direction away from the bottom surface. In one or more embodiments, the locking mechanism can include first and second levers each connected to the body at a pivot. The lever can rotate about a pivot axis in a direction toward the top surface of the body when the locking mechanism is manipulated from a locked position to an unlocked position.

A head unit system for a head of a user, including a headpiece including a support structure shaped to be worn over the head. A shield mount attached to the support structure is arranged for supporting a face shield adjacent to the head. A headpiece connector is attached to the support structure and has a headpiece contact configured for electrical connection. A peripheral device provided for being secured to the headpiece for concurrent movement, the peripheral device having a device connector with a device contact configured for electrical connection. The device connector and the headpiece connector cooperate to releasably attach the peripheral device to the headpiece in a secured configuration with the respective headpiece contact and the device contact abutting in the secured configuration so as to facilitate electrical connection between the headpiece and the peripheral device.

A head unit system for a head of a user, including a headpiece including a support structure shaped to be worn over the head. A shield mount attached to the support structure is arranged for supporting a face shield adjacent to the head. A headpiece connector is attached to the support structure and has a headpiece contact configured for electrical connection. A peripheral device provided for being secured to the headpiece for concurrent movement, the peripheral device having a device connector with a device contact configured for electrical connection. The device connector and the headpiece connector cooperate to releasably attach the peripheral device to the headpiece in a secured configuration with the respective headpiece contact and the device contact abutting in the secured configuration so as to facilitate electrical connection between the headpiece and the peripheral device.

An impact resistance spreading helmet is disclosed. The helmet includes a frontal section configured to interface with the forehead of an individual and extend upward over the cranium; a medial section for extending over a portion of the cranium rearward of the frontal section; an occipital section for extending rearward from the medial section and configured to cover a portion of the neck of the individual; a first compressible structure disposed between the frontal section and the medial section; and a second compressible structure disposed between the medial section and the occipital section. The interface between the frontal section and the first compressible structure is disposed at an angle vertical to a force direction perpendicular to the frontal section above the forehead of the individual.

The flexible electronic control unit 61 for helmet strap with safety, emergency and driving assistance functionalities can be installed around helmet strap 62, independently from helmet configuration. The electronic control unit is structured to execute Emergency Call or its equivalent in case of accident or fall, taking account of the related European and International regulations, with real-time transmission of user's blood pressure profile and/or derived measures to PSAP and the like while emergency call is ongoing as to support rescue organization. The electronic control unit implements also driving assistance functionalities and remote connection with vehicle control units, such as the peculiar generation of sound alert to reduce vehicle speed as a consequence of uneven bumpy street asphalt detection, as well as the peculiar generation of a synthetized voice message to the user for indications coming from the vehicle about adherence conditions and further information about its own status while travelling.

A helmet mounting system for attaching an accessory device to a helmet includes one or more cables with a hook for removably engaging the brim of the helmet. Each cable has an end attached to a spool which is rotatable in a first direction for winding of the cable(s) around the spool and a second direction for unwinding the cable. A tensioning mechanism is coupled to the spool. In certain embodiments, one or more accessory devices are electrically coupled to a power and data management module for routing power, data and control signals to the one or more accessory devices. Accessory devices are interchangeable, providing a modular system that can be customized to meet mission requirements and accessory devices are removable and replaceable as mission requirements change.