Electromagnetic position and orientation detector for a pilot's helmet
First Claim
1. An electromagnetic position and orientation detector comprising:
- an electric excitation generator;
a stationary transmitter with three coils connected to be excited alternately by said generator;
a mobile sensor with three coils, said sensor being electromagnetically coupled to the transmitter so that a signal is induced in each of its coils relative to the excitation of each of the coils of the transmitter;
calculation means connected to the coils of the sensor to determine, as a function of the induced signals, the position and orientation of the sensor;
a stationary sensor connected by electromagnetic coupling between the electric generator and the calculation means, to supply a reference signal to the calculation means wherein said calculation means determines errors in the signal gain based on the reference signal, including three transformers each having a primary winding and a secondary winding, the primary windings of the three transformers being connected in series respectively with the three coils of the transmitter and the secondary windings of the three transformers being connected in series between the mobile sensor and the calculation means; and
three switches connected in parallel respectively to the three secondary windings, each switch being turned on to short circuit the winding to which it is parallel, during a part of the time when the corresponding coil supplies the induced signal, each secondary winding thus supplying a reference signal during the time when the corresponding switch is turned off.
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Accused Products
Abstract
An electromagnetic position and orientation detector. A determination is made by a calculator of the position and the orientation of a mobile sensor as a function of the coupling coefficients measured between each of the coils of the sensor and each of the coils of a transmitter. These measurements are tainted with errors due to the imperfections in gain of the various elements of the transmission and reception channels. To eliminate these errors, a stationary sensor is used whose coupling coefficients with the coils of the transmitter are measured to serve as a reference to correct the coupling coefficients between the coils of the transmitter and of the mobile sensor.
166 Citations
1 Claim
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1. An electromagnetic position and orientation detector comprising:
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an electric excitation generator; a stationary transmitter with three coils connected to be excited alternately by said generator; a mobile sensor with three coils, said sensor being electromagnetically coupled to the transmitter so that a signal is induced in each of its coils relative to the excitation of each of the coils of the transmitter; calculation means connected to the coils of the sensor to determine, as a function of the induced signals, the position and orientation of the sensor; a stationary sensor connected by electromagnetic coupling between the electric generator and the calculation means, to supply a reference signal to the calculation means wherein said calculation means determines errors in the signal gain based on the reference signal, including three transformers each having a primary winding and a secondary winding, the primary windings of the three transformers being connected in series respectively with the three coils of the transmitter and the secondary windings of the three transformers being connected in series between the mobile sensor and the calculation means; and
three switches connected in parallel respectively to the three secondary windings, each switch being turned on to short circuit the winding to which it is parallel, during a part of the time when the corresponding coil supplies the induced signal, each secondary winding thus supplying a reference signal during the time when the corresponding switch is turned off.
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Specification