Control unit and a method for controlling a wheel on a vehicle

The invention claimed is: 1. A control unit for controlling a vehicle wheel provided with a tire, wherein the control unit comprises or is operatively connected to a data storage, which data storage has a stored tire model for the tire, wherein the control unit is configured to: representing a longitudinal tire force, in the tire model, as at least a function of a longitudinal wheel slip, wherein the longitudinal wheel slip is dependent on a rotational speed of the wheel and a velocity of a vehicle, receiving at least one tire parameter input, which tire parameter input includes a measured value of at least one parameter which affects a longitudinal slip stiffness of the tire, correct said function in the stored tire model by applying a slip stiffness correction factor on said function based on the received tire parameter input, wherein the correction occurs at the same or at different intervals dependent on the received tire parameter input; establishing a relation between the slip stiffness correction factor and the received tire parameter input is established by identifying properties of the tire at different conditions, obtaining or generating a wheel torque request, converting the obtained or generated wheel torque request to a wheel rotational speed request based on the corrected function, and sending the wheel rotational speed request to an actuator for providing the rotational speed of the wheel corresponding to said wheel rotational speed request. 2. The control unit according to claim 1 , wherein said at least one parameter is selected from the group consisting of: age of the tire, ambient temperature, inflation pressure of the tire, normal load on the tire, and wear of the tire. 3. The control unit according to claim 1 , wherein the slip stiffness correction factor has a variation with respect to the parameter. 4. The control unit according to claim 1 , wherein the control unit is configured to receive a plurality of different tire parameter inputs, each tire parameter input including a measured value of a respective one of a plurality of parameters which affect the longitudinal slip stiffness of the tire, wherein the control unit is configured to correct said function in the stored tire model by applying a combined correction factor on said function, the combined correction factor being a function of a plurality of slip stiffness correction factors, wherein each slip stiffness correction factor has a variation relative to a respective one of said plurality of parameters. 5. The control unit according to claim 1 , wherein said at least one tire parameter input is a primary tire parameter input and said at least one parameter is a primary parameter, wherein the control unit is further configured to correct said function in the stored tire model based on at least one secondary tire parameter input which secondary tire parameter input includes a measured value of at least one secondary parameter, the at least one secondary parameter being selected from the group consisting of: rolling radius, nominal peak friction, and rolling resistance coefficient. 6. The control unit according to claim 1 , wherein in its conversion of the wheel torque request to the wheel rotational speed request, the control unit is configured to calculate a slip request based on the corrected function and to transform the slip request to the wheel rotational speed request using the slip formula: λ = R ⁢ ⁢ ω - v x max ⁡ (  R ⁢ ⁢ ω  ,  v x  ) where λ is the longitudinal wheel slip, where Rω is the rotational speed of the wheel, of which R is the wheel radius in meters and ω is the angular velocity of the wheel, and where v x , is the longitudinal speed of the wheel. 7. A vehicle comprising, a control unit including or operatively connected to a data storage, which data storage has a stored tire model for the tire, wherein the control unit is configured to: representing a longitudinal tire force, in the tire model, as at least a function of a longitudinal wheel slip, wherein the longitudinal wheel slip is dependent on a rotational speed of the wheel and a velocity of a vehicle, receiving at least one tire parameter input, which tire parameter input includes a measured value of at least one parameter which affects a longitudinal slip stiffness of the tire, correct said function in the stored tire model by applying a slip stiffness correction factor on said function based on the received tire parameter input, wherein the correction occurs at the same or at different intervals dependent on the received tire parameter input; establishing a relation between the slip stiffness correction factor and the received tire parameter input is established by identifying properties of the tire at different conditions, obtaining or generating a wheel torque request, converting the obtained or generated wheel torque request to a wheel rotational speed request based on the corrected function, and sending the wheel rotational speed request to an actuator for providing the rotational speed of the wheel corresponding to said wheel rotational speed request. 8. A method for controlling torque applied to a vehicle wheel provided with a tire, comprising: representing a longitudinal tire force, in a tire model, as at least a function of a longitudinal wheel slip, wherein the longitudinal wheel slip is dependent on a rotational speed of the wheel and a velocity of a vehicle, receiving at least one tire parameter input, which tire parameter input includes a measured value of at least one parameter which affects a longitudinal slip stiffness of the tire, correcting said function in the tire model for the tire at the same or at different intervals by applying a slip stiffness correction factor on said function based on the received tire parameter input; establishing a relation between the slip stiffness correction factor and the received tire parameter input by identifying properties of the tire at different conditions, obtaining or generating a wheel torque request, converting the obtained or generated wheel torque request to a wheel rotational speed request based on the corrected function, and sending the wheel rotational speed request to an actuator for providing the rotational speed of the wheel corresponding to said wheel rotational speed request. 9. The method according to claim 8 , wherein said at least one parameter is selected from the group consisting of: age of the tire, ambient