A system for controlling turret functions of a land-based combat vehicle includes: a plurality of image detection sensors for recording sequences of images having an at least partial view of a 360° environment of the land-based combat vehicle; at least one virtual, augmented or mixed reality headset for wear by an operator, the headset presenting the at least partial view of the environment of the land-based combat vehicle on a display, the headset including a direction sensor for tracking an orientation of the headset imparted during a movement of a head of the operator and eye tracking means for tracking eye movements of the operator; a control unit including at least one computing unit for receiving as input and processing: images supplied by the plurality of image detection sensors; headset position and orientation data supplied by the direction sensor; eye position data supplied by the eye tracking means.

Systems, apparatuses, and methods are described which provide weapon sighted cameras. A camera can be mounted on a weapon and, after a set-up procedure, can acquire a target without using a weapon sight of the weapon.

Systems, apparatuses, and methods are described which provide weapon sighted cameras. A camera can be mounted on a weapon and, after a set-up procedure, can acquire a target without using a weapon sight of the weapon.

An optical positioning aiming system including an optical positioning subsystem (subsystem). The subsystem is configured to determine relative positions of a weapon and a head mounted display. The subsystem includes a processing unit, infrared (IR) emitters mounted to a weapon, IR emitters mounted to the head mounted display, IR cameras mounted to the weapon, and IR cameras mounted to the head mounted display. The IR cameras mounted to the weapon are configured to determine a relative position of the IR emitters mounted on the head mounted display and to communicate the relative position of the IR emitters mounted on the head mounted display to the processing unit. The IR cameras mounted to the head mounted display are configured to determine a relative position of the IR emitters mounted to the weapon and communicate the relative position of the IR emitters mounted to the weapon to the processing unit.

Systems and methods that can be used in lightweight vehicles, such as lightweight small Armed Aerial Scout (AAS) vehicles, and can provide small, lightweight weapons capable of “Fire and Forget” type performance to defeat the next generation “Swarm Weapon Systems”, such as, groups of high speed attack boats armed with anti ship weapons, are disclosed.

A display apparatus and method for displaying an operational area to an operative of a host platform, said operational area being defined within an external real-world environment relative to said host platform, the apparatus comprising a viewing device (12) configured to provide to said operative, in use, a three-dimensional view of said external real-world environment; a display generating device for creating images at the viewing device, a user input (33) configured to receive user input data (35) representative of a specified target or region in respect of which an operation is to be performed, and thereby defining an initial geometric volume for the operational area, said user input data including data representative of the location within said external real-world environment of said specified target or region and data representative of said operation to be performed in respect thereof; and a processor (32) configured to: use said user input data to generate or obtain three-dimensional image data representative of an adjusted geometric volume based, at least, on said initial geometric volume and on said operation to be performed, and display one or more images depicting said adjusted geometric volume and created using said three-dimensional image data, on said display generating device, the apparatus being configured to project or blend said one or more images displayed on said display generating device into said view of said external real-world environment at the relative location therein of the specified target or region.

An apparatus and method for displaying an operational area to an operative of a host platform, said operational area being defined within an external real-world environment relative to said host platform, the apparatus comprising a viewing device (12) configured to provide to said operative, in use, a three-dimensional view of said external real-world environment, a display generating device for creating images at the viewing device, and a processor (32) comprising an input (34) for receiving real-time first data representative of a specified target and its location within said external real-world environment and configured to receive or obtain second data representative of at least one characteristic of said specified target, the processor (32) being further configured to: use said first and second data to calculate a geometric volume representative of a region of influence of said specified target relative to said real-world external environment and/or said host platform, generate three-dimensional image data representative of said geometric volume, and display a three dimensional model, depicting said geometric volume and created using said three-dimensional image data, on said display generating device for creating images at the viewing device, the apparatus being configured to project or blend said three-dimensional model within said view of said external real-world environment at the relative location therein of said specified target.

The present invention relates to a training system for training of a forward controller. The training system utilises a pod housing that can be attached to a hardpoint under an aircraft wing. The pod is configured to receive communications from the forward controller on the ground (or in another aircraft) and communicate wirelessly with an HMD and/or electronic device in the cockpit of the aircraft. This allows cheaper, less expensive aircraft to be used for training purposes.

A viewing device for an aircraft pilot, the device comprising: a support for positioning on the head of the aircraft pilot; a display surface; display means carried by the support and arranged to display augmented reality objects on the display surface; acquisition means arranged to act in real time to acquire first data representative of the position and of the orientation of the support, second data representative of the position and of the orientation of a cockpit of the aircraft, and third data defining congested zones occupied by equipment of the cockpit, and to acquire the augmented reality objects; and processor means arranged to act in real time to define positions for the augmented reality objects, so that all of the augmented reality objects are positioned outside the congested zones when they are displayed on the display surface.

An apparatus and method for displaying an operational area to an operative of a host platform, said operational area being defined within an external real-world environment relative to said host platform, the apparatus comprising a viewing device (12) configured to provide to said operative, in use, a three-dimensional view of said external real-world environment, a display generating device for creating images at the viewing device, and a processor (32) comprising an input (34) for receiving real-time first data representative of a specified target and its location within said external real-world environment and configured to receive or obtain second data representative of at least one characteristic of said specified target, the processor (32) being further configured to: use said first and second data to calculate a geometric volume representative of a region of influence of said specified target relative to said real-world external environment and/or said host platform, generate three-dimensional image data representative of said geometric volume, and display a three dimensional model, depicting said geometric volume and created using said three-dimensional image data, on said display generating device for creating images at the viewing device, the apparatus being configured to project or blend said three-dimensional model within said view of said external real-world environment at the relative location therein of said specified target.