A method includes ascertaining a first drive force and a second drive force for a first drive axle and a second drive axle of a vehicle, ascertaining a first slip value and a second slip value for the first drive axle and the second drive axle of the vehicle, determining a first slip measured value
A method includes ascertaining a first drive force and a second drive force for a first drive axle and a second drive axle of a vehicle, ascertaining a first slip value and a second slip value for the first drive axle and the second drive axle of the vehicle, determining a first slip measured value for the first drive axle from the first drive force and the first slip value and determining a second slip measured value for the second drive axle from the second drive force and the second slip value, determining a total torque that is to act altogether on the first drive axle and the second drive axle, and dividing the total torque into a first desired torque and a second desired torque in dependence upon the first slip measured value and the second slip measured value.
대표청구항▼
1. A method for controlling a vehicle having a first drive device allocated to a first drive axle and a second drive device allocated to a second drive axle, the method comprising: ascertaining a first drive force that acts upon the first drive axle and a second drive force that acts upon the second
1. A method for controlling a vehicle having a first drive device allocated to a first drive axle and a second drive device allocated to a second drive axle, the method comprising: ascertaining a first drive force that acts upon the first drive axle and a second drive force that acts upon the second drive axle;ascertaining a first slip value for the first drive axle and a second slip value for the second drive axle;determining, from the first drive force and the first slip value, a first slip measured value for the first drive axle determining, from the second drive force and the second slip value, a second slip measured value for the second drive axle;determining a total torque that is to act altogether on the first drive axle and the second drive axle;dividing, in dependence upon the first slip measured value and the second slip measured value, the total torque into a first desired torque and a second desired torque; andapplying, by the first drive device to the first drive axle, the first desired torque and applying, by the second drive device to the second drive axle, the second desired torque. 2. The method as claimed in claim 1, the method additionally comprising: determining, from the first slip measured value and the second slip measured value, a ratio for the first drive axle and the second drive axle,wherein the dividing, in dependence upon the first slip measured value and the second slip measured value, the total torque into a first desired torque and a second desired torque comprises dividing, in dependence upon the determined ratio value, the total torque into the first desired torque and the second desired torque. 3. The method as claimed in claim 1, the method additionally comprising: determining a first slip threshold value for the first drive axle and a second slip threshold value for the second drive axle,determining a radius of at least one wheel of the vehicle, anddetermining, using the first slip measured value, the first slip threshold, and the radius, a first torque threshold for the first drive axle and determining, using the second slip measured value, the second slip threshold, and the radius, a second torque threshold for the second drive axle. 4. The method as claimed in claim 1, wherein the first desired torque is not greater than the first torque threshold for the first drive axle and wherein the second desired torque is not greater than the second torque threshold for the second drive axle. 5. The method as claimed in claim 1, wherein the first drive device is one of (i) a first axle drive device that acts upon the first axle or (ii) two first wheel drive devices that act independently of one another on wheels of the first axle, and wherein the second drive device is one of (i) a second axle drive device that acts upon the second axle or (ii) two second wheel drive devices that act independently of one another on wheels of the second axle. 6. The method as claimed in claim 5, wherein at least one of the first axle drive device and the second axle drive device and/or at least one of the two first wheel drive devices and the two second wheel drive devices is an electric motor. 7. The method as claimed in claim 1, wherein the first drive device is configured to apply both acceleration and deceleration torques to the first drive axle and/or the second drive device is configured to effect both acceleration torques and deceleration torques to the second drive axle. 8. The method as claimed in claim 1, wherein the vehicle comprises an electronically regulated air suspension for ascertaining an axle load distribution. 9. The method as claimed in claim 1, wherein the method is implemented prior to commencing travel and/or during the driving operation of the vehicle. 10. The method as claimed in claim 1, wherein the method is repeated during the driving operation of the vehicle. 11. The method as claimed in claim 1, wherein the vehicle is one of a hybrid vehicle or a fully electric vehicle. 12. The method as claimed in claim 1, the method additionally comprising: ascertaining a first maximum torque that can be implemented by the first drive device and a second maximum torque that can be implemented by the second drive device. 13. The method as claimed in any claim 1, wherein the vehicle additionally includes one or more further non-driven axles. 14. The method as claimed in claim 1, wherein the total torque is determined by one or more of a braking value encoder, a gas pedal of the vehicle, an external demand for acceleration or deceleration, or a manual operating element. 15. The method as claimed in claim 1, wherein the vehicle includes an electronically regulated air suspension configured to ascertain an axle load distribution of a first axle load value for the first drive axle and a second axle load value for the second drive axle. 16. The method as claimed in claim 1, wherein the first slip value and the second slip value indicate an amount of slip per rotation of a wheel of the vehicle, and wherein the first slip measured value and the second slip measured value indicate a change in an amount of slip per rotation of a wheel in relation to a change in drive force applied to an axle. 17. A system for controlling a vehicle having first drive axle and a second drive axle, the device comprising: a sensor configured to ascertain the first drive force that acts upon the first drive axle and a second drive force that acts upon the second drive axle;a sensor configured to ascertain a first slip value for the first drive axle and a second slip value for the second drive axle;an evaluator configured to determine, from the first drive force and the first slip value, a first slip measured value for the first drive axle and to determine, from the second drive force and the second slip value, a second slip measured value for the second drive axle;a measurement device for determining a total torque that is to act altogether on the first drive axle and the second drive axle;a controller configured to divide, in dependence upon the first slip measured value and the second slip measured value, the total torque into a first desired torque and a second desired torque;a first drive device configured to apply the first desired torque to the first drive axle; anda second drive device configured to apply the second desired torque to the second drive axle. 18. A vehicle including a system for controlling a vehicle as claimed in claim 17.
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이 특허에 인용된 특허 (4)
Arai Kentarou,JPX, Front wheel- and rear wheel-drive vehicle and apparatus for detecting coefficient of friction on road surface.
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Mikami, Tsuyoshi; Kondo, Koichi; Kawabata, Takuji, Vehicle control apparatus for front and rear drive ratio on the basis of operator's desired vehicle drive force and static and dynamic vehicle states.
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