Line pressure control with input shaft torque measurement

What is claimed is: 1. A method of controlling a transmission comprising: supplying a fluid at a pressure to engage a clutch; periodically adjusting the pressure in proportion to an input torque value based on a coefficient of proportionality between pressure and torque; and in response to a signal indicating slip of the clutch, increasing the coefficient of proportionality such that the pressure is increased for all positive input torque values. 2. The method of claim 1 wherein the pressure when input torque is zero is based on a constant coefficient which is not adjusted in response to the signal indicating slip of the clutch. 3. The method of claim 1 wherein the transmission provides a finite number of discrete speed ratios between an input shaft and an output shaft; and the method further comprises selecting a different coefficient of proportionality for some of the speed ratios. 4. The method of claim 1 wherein the input torque value is a measured input torque value in a steady state condition. 5. The method of claim 4 wherein, in a transient condition, the input torque value is a maximum of the measured input torque value and a driver demand torque value. 6. The method of claim 5 further comprising: in a steady state condition, recording a difference between the driver demand torque value and the measured input torque value; and in a transient condition, adding the difference to the driver demand torque value. 7. The method of claim 1 further comprising decreasing the coefficient of proportionality when the clutch is not slipping. 8. The method of claim 7 wherein the coefficient of proportionality is decreased only when it is greater than a predetermined initial coefficient. 9. A transmission comprising: an input shaft; a clutch having a torque capacity varying in relation to a hydraulic pressure; and a controller in communication with pressure regulating devices such that signals from the controller influence the hydraulic pressure, the controller configured to periodically adjust the hydraulic pressure in proportion to an input torque value based on a coefficient of proportionality between pressure and torque, detect clutch slip events, and increase the coefficient of proportionality in response to the slip events. 10. The transmission of claim 9 wherein a finite number of discrete speed ratios are provided between an input shaft and an output shaft, and wherein the controller is further configured to select a different coefficient of proportionality for some of the speed ratios. 11. The transmission of claim 9 wherein the input torque value is a measured input torque value in a steady state condition. 12. The transmission of claim 11 wherein, in a transient condition, the input torque value is a maximum of the measured input torque value and a driver demand torque value. 13. The transmission of claim 12 wherein the controller is further configured to: in a steady state condition, record a difference between the driver demand torque value and the measured input torque value, and in a transient condition, add the difference to the driver demand torque value. 14. A transmission controller comprising: input communication channels for sensing an input torque and speeds of at least two shafts; output communication channels for setting the state of pressure regulating devices; and control logic configured to send signals to the pressure regulating devices to set a hydraulic pressure to a pressure value, wherein the pressure value includes a first term which is proportional to an input torque value, the term having a coefficient of proportionality, detect clutch slip events, and increase the coefficient of proportionality in response to the slip events. 15. The transmission controller of claim 14 wherein the pressure value includes a second term that is independent of the input torque value. 16. The transmission controller of claim 14 wherein the input torque value is a measured input torque value in a steady state condition. 17. The transmission controller of claim 14 further comprising decreasing the coefficient of proportionality when the clutch is not slipping. 18. The transmission controller of claim 14 wherein the coefficient of proportionality is decreased only when it is greater than a predetermined initial coefficient.