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DE102018202982A1 |
Method for checking a position determination of a motion and position sensor
The invention relates to a method for checking a position determination of a motion and position sensor and an arrangement. The method comprises the following steps: a) determining the respective... |
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DE102017128160A1 |
Seismic three-dimensional surveying of small objects, submarine cables and the like in the seabed
The invention relates to a seismic three-dimensional surveying of small objects, submarine cables, other disruptive bodies, archaeological structures, rocks or low-mighty deposition horizons,... |
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DE102016219935A1 |
Device and method for determining an orientation of a vehicle
The present invention relates to an apparatus and a method for determining an orientation of a vehicle. The apparatus includes a receiver having an antenna, wherein the antenna has a directional... |
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DE102017201345A1 |
DEVICE AND METHOD FOR ESTIMATING THE DIRECTION OF A VEHICLE
An apparatus for estimating a direction of a vehicle includes: a driving position calculation element that calculates a current position of the vehicle and a current time using a received... |
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DE102016002704A1 |
A control device and method for determining an intrinsic position of a motor vehicle
The invention relates to a method for determining an intrinsic position (15) of a motor vehicle (1), wherein observation data (6) from at least one position signal (Tk, Tk - 1) from a receiving... |
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DE102015016045B4 |
Satelitengestützte determination of a motor vehicle in a covered area
The invention relates to a position determining system for a motor vehicle (12) for determining whether the motor vehicle is in a covered by a cover element of a structure portion (14, 24),... |
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DE102015016045A1 |
A saddle-based determination of a motor vehicle in a covered area
The invention relates to a position determination system for a motor vehicle (12) for determining whether the motor vehicle is located in a region (14, 24) covered by a cover element of a... |
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DE102015201471A1 |
Antenna module, method for determining a yaw rate, yaw rate sensor and use
The invention relates to a method for determining a yaw rate via satellite navigation and a suitable for this antenna module, a yaw rate sensor and the use of a satellite navigation signal for... |
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DE102014226137A1 |
A method for determining a filling level of a liquid tank in a motor vehicle
The invention, which relates to a method for determining a level of a liquid tank in a motor vehicle, allows both detection of ascent or descent of the motor vehicle by means of several... |
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DE102008030071B4 |
System for determining the direction of travel of a vehicle
A system for determining the direction of travel of a vehicle, the system comprising: a GPS receiver that provides GPS signals indicating the position of the vehicle; a yaw rate sensor for... |
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DE102014109592A1 |
A portable device for azimuth determination
Herein a device for azimuth determination is described, a MEMS inertial measurement unit (IMU), a GPS system, comprising a GPS antenna and a GPS receiver, and a processor that is configured to... |
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DE102007034354B9 |
Method and device for estimating the behavior of a vehicle using GPS signals
A method of estimating the direction of the longitudinal axis of a vehicle with respect to a local coordinate system, comprising the steps: Calculating speed vectors (V1, V2) at two or more... |
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DE102007034354B4 |
Method and device for estimating the behavior of a vehicle using GPS signals
A method of estimating the direction of the longitudinal axis of a vehicle with respect to a local coordinate system, comprising the steps: Calculating speed vectors (V1, V2) at two or more... |
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DE10394295T5 |
Distance calculator and calculation program
The distance between a movable body and an object is to be calculated accurately on the basis of various state variables such as the azimuth angle between the movable body and the object, the... |
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DE102008030071A1 |
GPS-based in-vehicle sensor calibration algorithm
It A system and a method for calibrating the factors the bias and the scale of a change in direction sensor, such as a yaw rate sensor, using GPS signals provided. The system receives wheel speed... |
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DE102007034354A1 |
Method and apparatus for estimating behavior of a vehicle using GPS signals
On Method and apparatus for estimating behavior of a vehicle be created. At least two GPS antennas are along a longitudinal axis disposed of a vehicle, so that the velocity vectors of the... |
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DE19645209B4 |
Positioning device for a motor vehicle having a satellite receiver and detection method
locating device for a Motor vehicle, having a satellite receiver, preferably for receiving of signals of the GPS and / or GLONASS satellites, the satellite receiver formed is, for assumed position... |
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DE19718947B4 |
Pilotgeschoß
Pilotgeschoß, dessen äußere Form, Masse und Massenträgheit im wesentlichen mit einem in einen Wirkbereich zu verschießendes Wirkgeschoß übereinstimmt, und welches Mittel zur ständigen Bestimmung... |
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DE10350108A1 |
User orientation and navigation on INS-base
Mobile apparatus for improved navigation and orientation with a visualization interface, a first sensor for providing signals indicative of a movement of the mobile device, a second sensor for... |
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DE10213502B4 |
A method for acquiring azimuth information
A method for obtaining information relating to the azimuth of a direction to be determined with the steps of: two planar antennas each having a hemispherical antenna pattern, so at an angle to... |
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DE10247991A1 |
Yaw angle determination method for a motor vehicle, e.g. for a dynamic control system, in which the velocity vector is determined by frequency analysis of a GPS receiver signal and is then combined with a measured yaw rate value
The method for determining the yaw angle (beta) of a motor vehicle in which a yaw rate sensor is used to determine the yaw rate (omegagier) and the direction of the velocity vector, in particular... |
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DE10213502A1 |
A method for acquiring azimuth information
There is provided a method for acquiring azimuth information, in which a first and a second planar patch antenna (11a, 11b) are arranged such that their area coverage areas partially overlap, so... |
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DE10028900A1 |
Navigation system, e.g. for vehicles, corrects GPS position and direction from polar diagram data can locate on digital street map
The navigation system measures the signal strengths received from the satellites (1,2,3,4) applies a correction to the GPS calculated position and direction of motion based on the polar diagram of... |
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DE19957363A1 |
A method for target-related correction of a ballistic trajectory
To reduce appreciably without the technology and costs for an automatic homing control the inevitable path scattering ballistically verbrachter projectiles in the target area and thus the hit... |
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DE19718947A1 |
GPS-based pilot-floor and process for admission of active projectiles over a defined area of application
For exact instruction of effective projectiles a GPS-supported pilot projectile is proposed, which is equipped with a GPS receiver, during the entire function sequence constantly the own position... |
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DE19715458A1 |
Method for preventing collision between crane and building or vehicles
The method involves using a global positioning system antenna, coupled to a receiver for providing position information in two or three dimensions. The position information is processed in real... |
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DE19651543C1 |
Inertial attitude / heading reference with GPS attitude / heading angle support
The invention concerns a course and position angle reference system comprising an inertial system (1) with an analytical platform and a GPS receiver (2) for supporting the inertial system (1). The... |
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DE19645209A1 |
Locating system for a motor vehicle having a satellite receiver
Disclosed is a position location system for a vehicle fitted with a satellite signal receiver (2), enabling a wrong course vector (23) to be identified. The wrong course vector (23) features a... |
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DE4133392C1 |
Determining progress of mining material spreader - receiving signals from at least four satellites at end of tipping arm and at vehicle base and calculating actual geodetic positions and height of material tip
The method is for monitoring the tipping process of a loader (4) with a movable structure (5) equipped with an unloading or tipping arm (10) for depositing loads of material on the tip (8). The... |
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DE4011316A1 |
Satellite geodesy system for excavator shovel wheel position
The geodesy system uses measuring signals from at least 4 satellites (10..13) received by a receiver (1) attached to the excavator adjacent the shovel wheel (7) and by a second receiver (2) at a... |