LFK-LENKFLUGKOERPERSYSTEME GMBH Patent applications |
Patent application number | Title | Published |
20120318916 | Load Carrier for Aircraft - A load carrier for aligning a load of an aircraft is provided. The load carrier includes a carrier unit for mounting the load carrier on the aircraft, a load unit for mounting the load and a bearing unit for pivoting the load unit with respect to the carrier unit. The bearing unit has at least one curved rail element and at least one car element, which is displaceable along the rail element. | 12-20-2012 |
20120061507 | METHOD FOR RELEASING AN UNMANNED MISSILE FROM A CARRIER AIRCRAFT - Unmanned missile and method for releasing the unmanned missile from a carrier aircraft, in which the missile has an autonomous flight control device that acts on control devices of the missile. The method includes adjusting vertical rudders and elevators of the missile into a neutral position in which a respective rudder angle is 0°, separating electrical and mechanical connections between the missile and the carrier aircraft, and detecting, via sensors of the missile, that the separating has occurred. The method also includes activating the autonomous flight control device and automatically controlling the missile with the flight control device and the control devices based upon correction flight condition variables caused by a prevailing downwash between the missile and the carrier aircraft, and automatically controlling the missile with the flight control device and the control devices based on data stored in at least one storage device on the missile. | 03-15-2012 |
20110270592 | METHOD AND DEVICE FOR TRACKING THE PATH OF MOTION OF A MOVING OBJECT AS WELL AS COMPUTER PROGRAM AND DATA STORAGE MEDIA - Method, device, computer program and computer program product for tracking the path of motion of a moving object. The method includes a) providing data of at least one state variable to be determined, which influences the movement of the moving object, at a first point in time; b) initializing the probability density (p) of the at least one state variable to be determined at the first point in time; c) predicting of the probability density (p) of the at least one state variable to be determined at a next point in time after the first point in time; d) verifying of whether measurement data are available that can be used for a calculation of the probability density (p) of the at least one state variable to be determined, and d′) recalculating the probability density (p) with these measurement data when such data is available; e) calculating the prediction values of the state variable(s) to be determined from the probability density (p); f) outputting the calculated prediction values to a downstream data processing device; and g) repeating the steps c) through f). The steps of initializing the probability density (p) of step b); predicting the probability density (p) of step c); recalculating the probability density (p) of step d′); and calculating the prediction values of step e) are performed by discretizing the probability density (p) on sparse grids. | 11-03-2011 |
20110262008 | Method for Determining Position Data of a Target Object in a Reference System - A method for determining the position data of a target object in a reference system from an observation position at a distance. A three-dimensional reference model of the surroundings of the target object is provided, the reference model including known geographical location data. An image of the target object and its surroundings, resulting from the observation position for an observer, is matched with the reference model. The position data of the sighted target object in the reference model is determined as relative position data with respect to known location data of the reference model. | 10-27-2011 |
20110261162 | Method for Automatically Generating a Three-Dimensional Reference Model as Terrain Information for an Imaging Device - A method for automatically generating a three-dimensional reference model as terrain information for a seeker head of an unmanned missile. A three-dimensional terrain model formed from model elements obtained with the aid of satellite and/or aerial reconnaissance is provided. Position data of the imaging device at least at one planned position and a direction vector from the planned position of the imaging device to a predetermined target point in the three-dimensional terrain model are provided. A three-dimensional reference model of the three dimensional terrain model is generated that incorporates only those model elements and sections of model elements from the terrain model, which in the viewing direction of the direction vector from the planned position of the imaging device, are not covered by other model elements and/or are not located outside the field of view of the imaging device. | 10-27-2011 |
20110233322 | Navigation Method for a Missile - A SAR image recorded by a reconnaissance system is transferred as a reference edge image together with the data of the trajectory as a reference. The signal of the infrared seeker head of the missile is converted into a virtual SAR edge image and compared to the SAR reference image to calculate the precise position of the missile. | 09-29-2011 |
20110071703 | METHOD FOR PROVIDING CONTROL COMMANDS FOR A VEHICLE STEERABLE BY MEANS OF AN OPERATING UNIT AND CONTROL SYSTEM FOR A STEERABLE VEHICLE OF THIS TYPE - Method and control system for providing control commands for a vehicle steerable by an operating unit or for an image acquisition device of the vehicle by sequential display of acquired image data on an image display device of the operating unit connected to the vehicle via a data transfer connection. The method includes acquiring data of an image recorded by the image acquisition device, acquiring vehicle state data at a time the image was recorded, and compressing the image data. The method also includes transferring the compressed image data and the vehicle state data via the data transfer connection to the operating unit, decompressing the transferred image data to form a displayable image, and displaying the displayable image on the image display device. The method further includes entering an operator command into the operating unit to at least one of change a direction of movement of the vehicle and change a direction of view of the image acquisition device, calculating a new image from the displayable image that takes into account the transferred vehicle state data and the entered operator command, displaying the new image on the image display device instead of the displayable image, and transferring a control command from the operator command to the vehicle via the data transfer connection. | 03-24-2011 |
20100258672 | Aircraft, particularly an unmanned aircraft, having at least one weapons bay - An aircraft, particularly an unmanned aircraft, has at least one weapons bay. At least one standardized equipment container can be inserted into the weapons bay. | 10-14-2010 |
20100110557 | Tactical Radiating Device for Directed Energy - A tactical radiating device for directed energy includes at least two generators of high energy directed beams. At least one beam combining system combines high energy directed beams emitted by the generators into a combined high energy beam. A focusing device focuses the combined high energy beam. | 05-06-2010 |
20090097508 | Fiber Laser Arrangement Having A High Beaming Power - A fiber laser arrangement having a high beaming power includes a plurality of continuously operating coherent individual fiber lasers. Pumping energy generated by a common master oscillator operated in the longitudinal mode is distributed to the fiber lasers by way of a fiber splitter, in a branched manner. An integrated electro-optical phase shifter is assigned to each individual fiber laser, and can be controlled by an electronic control system. By appropriate displacements of the optical phases in individual phases of the fiber laser arrangement atmospheric turbulence effects on the propagation path of the laser radiation to a target are compensated in order to obtain an optimal focusing of the entire laser radiation onto the remote target. | 04-16-2009 |
20080264385 | Valve Control Unit for Ramjet Propulsion System as well as Guided Missile Having Such a Valve Control Unit - In a valve control unit for a ram jet propulsion system having a power unit space a valve for controlling a fuel quantity required to the propulsion system, and a valve adjusting unit which is constructed to be operable by means of an electronic control unit, the valve is combined with its valve adjusting unit and its electronic control unit to form a thermally insulated valve assembly. The valve assembly is configured for the arrangement in the power unit space. | 10-30-2008 |