The invention relates to an inertial unit for being attached to a rotatable part of a vehicle, the rotatable part being coupled to a power equipment of the vehicle, the inertial unit including: at least one acceleration sensor and/or at least one magnetometer arranged to detect a tilting angle of th
The invention relates to an inertial unit for being attached to a rotatable part of a vehicle, the rotatable part being coupled to a power equipment of the vehicle, the inertial unit including: at least one acceleration sensor and/or at least one magnetometer arranged to detect a tilting angle of the rotatable part, and/or at least one counter device arranged to detect rotations of the rotatable part, and at least one gyroscope arranged to detect directions at a rim level of the rotatable part for providing angular information for positioning.
대표청구항▼
1. An apparatus for vehicle positioning using a coordinate system transformation, the apparatus being attachable to a rotatable part of a vehicle having an axis of rotation, the rotatable part being coupled to a power equipment of the vehicle, the apparatus comprising: at least one of an acceleratio
1. An apparatus for vehicle positioning using a coordinate system transformation, the apparatus being attachable to a rotatable part of a vehicle having an axis of rotation, the rotatable part being coupled to a power equipment of the vehicle, the apparatus comprising: at least one of an acceleration sensor arranged to detect a tilting angle of the rotatable part around the axis of rotation over time, a magnetometer arranged to detect the tilting angle of the rotatable part around the axis of rotation over time,a counter device arranged to detect a number of full rotations of the rotatable part around the axis of rotation over time, andat least one gyroscope arranged to detect a change in direction at a rim level of the rotatable part for providing information on an angular rate of turn in relation to a defined axis different from the axis of rotation for the vehicle positioning, andmeans for processing data operatively connected to at least one of the acceleration sensor, the magnetometer, and the counter device, and operatively connected to the at least one gyroscope, to receive data comprising at least one of the detected tilting angle over time or the detected number of full rotations over time and comprising the information on the angular rate of turn, wherein the means for processing data is arranged to carry out at least one coordinate system transformation on the basis of the detected information on the angular rate of turn over time and at least the detected tilting angle over time or the detected number of full rotations over time, and wherein at least one of the tilting angle over time or the number of full rotations over time of the rotatable part is used for compensating gyroscope bias in order to compensate for inaccuracy of the detected information on the angular rate of turn in the coordinate system transformation. 2. The apparatus of claim 1, wherein the at least one coordinate system transformation is carried out by using at least one direction cosine matrix. 3. The apparatus of claim 2, wherein the direction cosine matrix is estimated by normalizing accelerometer readings or by using data obtained by the at least one gyroscope. 4. The apparatus of claim 1, wherein the apparatus has at least two gyroscopes having an angular spacing of about 90°. 5. The apparatus of claim 1, wherein an angle of phase difference, covered distance and/or covered distance in a predetermined period of time are estimated by the data processing. 6. The apparatus of claim 1, wherein the data processing comprises updating location information of the vehicle by using change in covered distance in a predetermined period of time in relation to selected axes transferred to a selected coordinate system. 7. The apparatus of claim 1, wherein a moment of completing a full rotation is estimated or detected and data with regard to one rotation is gathered from the at least one gyroscope. 8. A method for vehicle positioning using a coordinate system transformation, the method comprising: at least one of obtaining data on a number of full rotations of a rotatable part of a vehicle around an axis of rotation over time and obtaining data on a tilting angle of the rotatable part of the vehicle around an axis of rotation over time andobtaining data on an angular rate of turn in relation to a defined axis different from the axis of rotation by at least one gyroscope arranged to detect a change in direction at a rim level of the rotatable part for the vehicle positioning, andprocessing the data comprising at least one of the tilting angle of the rotatable part over time or the number of full rotations of the rotatable part over time and comprising the angular rate of turn of the rotatable part over time by at least one coordinate system transformation, wherein the at least one coordinate system transformation is carried out on the basis of the information on the angular rate of turn over time and at least one of the obtained tilting angle over time or the obtained number of full rotations over time, and by using at least one of the tilting angle over time or the number of full rotations over time of the rotatable part for compensating gyroscope bias in order to compensate inaccuracy of the obtained information on the angular rate of turn in the coordinate system transformation. 9. The method of claim 8, wherein an angle of phase difference, covered distance and/or covered distance in a predetermined period of time are estimated by the data processing. 10. The method of claim 8, wherein processing the data comprises updating location information of the vehicle by using change in covered distance in a predetermined period of time in relation to selected axes transferred to a selected coordinate system. 11. The method of claim 8, wherein a moment of completing a full rotation is estimated or detected and data with regard to one rotation is gathered from the at least two gyroscopes.
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