The invention features methods and devices for controlling bleeding from blood vessels that may be damaged as a result of trauma or impact with an object, such as a bullet or shrapnel. The device may be wearable by a user and include one or more components, such as wound sealant and multiple inflatable balloons/bladders. The device may be integrated into a garment, e.g., a vest, jacket, trousers, or full body suit. Once triggered (automatically or manually), the device may be used to deliver wound sealant to a wound site and/or pressure to the wound site by selective inflation of one or more balloons over exsanguinating blood vessels that may be damaged, thereby stopping or minimizing the bleeding. Alternatively, or in addition, the device may be used to stabilize a wounded wearer for, e.g., transportation purposes, or to provide buoyancy. Devices of the invention may also be used as a blood pressure monitor, as a massaging device, and as a breast pump. Devices and methods of the invention may also be used for repairing or stabilizing machines, such as vehicles (e.g., automobiles and boats).

An augmented reality gaming system uses a gameplay device to removably secure a mobile device. The gameplay device has at least one user interface and a wireless transceiver for communicating with the mobile device. An augmented reality gaming app stored in the memory of the mobile device utilizes an image sensor of the mobile device to display a live image on a screen of the mobile device, and causes graphics corresponding to one or more virtual targets to be overlaid on the live image. Using information from a location sensor and an orientation sensor of the mobile device, together with information about a virtual location of the virtual target, the mobile device determines whether a virtual shot triggered by the at least one user interface causes virtual damage to the virtual target.

An augmented reality gaming system uses a gameplay device to removably secure a mobile device. The gameplay device has at least one user interface and a wireless transceiver for communicating with the mobile device. An augmented reality gaming app stored in the memory of the mobile device utilizes an image sensor of the mobile device to display a live image on a screen of the mobile device, and causes graphics corresponding to one or more virtual targets to be overlaid on the live image. Using information from a location sensor and an orientation sensor of the mobile device, together with information about a virtual location of the virtual target, the mobile device determines whether a virtual shot triggered by the at least one user interface causes virtual damage to the virtual target.

A device, method and system for identification of a person participating in a range shooting activity, a token comprising at least an identification of a required shooting pattern and a communication means for communicating the required shooting pattern to a communication unit, and a device, system and method for image capture and analysis of a shooting session.

The present invention relates to an integrated shooting simulation system using a fisheye lens camera and, more particularly, to an integrated shooting simulation system using a fisheye lens camera, the system allowing shooting simulation system equipment to be formed in an integrated structure by using a fisheye lens camera so as to have free movable installation and be usable through simple installation and reinstallation without spatial constraints. The integrated shooting simulation system using a fisheye lens camera, according to the present invention, includes: a main body for implementing a shooting simulation by executing a shooting program; a display device for receiving images, which are related to the shooting simulation, from the main body, and displaying the same; a fisheye lens camera mounted at the display device and capturing a shooting image displayed on the display unit; and a simulation gun, wherein the main body and the display unit are integrally formed.

Shooting training systems have a self-propelled robotic target support platform operable to navigate on an extended surface, the platform supporting a target, the platform including a sensor array adapted to detect and register shot information about a shot generated by a shooter passing proximate the target, a transmitter on the platform adapted to transmit the shot information, and a receiver associated with the shooter adapted to receive the shot information and to provide shot information to the shooter. The platform may be a vehicle adapted to operate over a ground surface in any direction. The platform may be a watercraft. The platform may be a wheeled vehicle. The sensor array may be adapted to detect and register shot information including a location and direction of the shot. There may be a plurality of robotic target support platforms, each having a sensor array. The receiver may be adjacent to the shooter.

Shooting training systems have a self-propelled robotic target support platform operable to navigate on an extended surface, the platform supporting a target, the platform including a sensor array adapted to detect and register shot information about a shot generated by a shooter passing proximate the target, a transmitter on the platform adapted to transmit the shot information, and a receiver associated with the shooter adapted to receive the shot information and to provide shot information to the shooter. The platform may be a vehicle adapted to operate over a ground surface in any direction. The platform may be a watercraft. The platform may be a wheeled vehicle. The sensor array may be adapted to detect and register shot information including a location and direction of the shot. There may be a plurality of robotic target support platforms, each having a sensor array. The receiver may be adjacent to the shooter.

The invention features methods and devices for controlling bleeding from blood vessels that may be damaged as a result of trauma or impact with an object, such as a bullet or shrapnel. The device may be wearable by a user and include one or more components, such as wound sealant and multiple inflatable balloons/bladders. The device may be integrated into a garment, e.g., a vest, jacket, trousers, or full body suit. Once triggered (automatically or manually), the device may be used to deliver wound sealant to a wound site and/or pressure to the wound site by selective inflation of one or more balloons over exsanguinating blood vessels that may be damaged, thereby stopping or minimizing the bleeding. Alternatively, or in addition, the device may be used to stabilize a wounded wearer for, e.g., transportation purposes, or to provide buoyancy. Devices of the invention may also be used as a blood pressure monitor, as a massaging device, and as a breast pump. Devices and methods of the invention may also be used for repairing or stabilizing machines, such as vehicles (e.g., automobiles and boats).

Shooting training systems have a self-propelled robotic target support platform operable to navigate on an extended surface, the platform supporting a target, the platform including a sensor array adapted to detect and register shot information about a shot generated by a shooter passing proximate the target, a transmitter on the platform adapted to transmit the shot information, and a receiver associated with the shooter adapted to receive the shot information and to provide shot information to the shooter. The platform may be a vehicle adapted to operate over a ground surface in any direction. The platform may be a watercraft. The platform may be a wheeled vehicle. The sensor array may be adapted to detect and register shot information including a location and direction of the shot. There may be a plurality of robotic target support platforms, each having a sensor array. The receiver may be adjacent to the shooter.

Shooting training systems have a self-propelled robotic target support platform operable to navigate on an extended surface, the platform supporting a target, the platform including a sensor array adapted to detect and register shot information about a shot generated by a shooter passing proximate the target, a transmitter on the platform adapted to transmit the shot information, and a receiver associated with the shooter adapted to receive the shot information and to provide shot information to the shooter. The platform may be a vehicle adapted to operate over a ground surface in any direction. The platform may be a watercraft. The platform may be a wheeled vehicle. The sensor array may be adapted to detect and register shot information including a location and direction of the shot. There may be a plurality of robotic target support platforms, each having a sensor array. The receiver may be adjacent to the shooter.