Clutch control with integrated diagnostics/prognostics and telematics interface

What is claimed is: 1. A controller for a vehicle transmission, the controller comprising: a control unit portion in communication with the transmission to initiate a vehicle system procedure; a prognostic module in two way communication with the control unit portion; a diagnostic module in communication with the prognostic module and in two way communication with the control unit portion; a telematics interface in two way communication with the control unit portion, wherein a plurality of control settings and system parameters of a vehicle are sent to one of the diagnostic module and the prognostic module to be compared with previously stored data stored in one of the diagnostic module and the prognostic module; and wherein in response to the plurality of control settings and system parameters the controller adjusts the shifting procedures of the transmission in order to keep the vehicle in an operational state until maintenance can be performed by adjusting a pressure profile of a clutch, by avoiding the use of one or more clutches, by avoiding the use of one or more gear selections, by performing double swap shifts or by performing upshifts or downshifts more quickly thereby reducing an amount of time that the transmission operates in a particular gear ratio. 2. The controller according to claim 1 , further comprising a vehicle dashboard in communication with the telematics interface, the control unit portion, the prognostic module, and the diagnostic module. 3. The controller according to claim 1 , further comprising a control sensor, the diagnostic module and the prognostic module in communication with the control sensor. 4. The controller according to claim 1 , further comprising a diagnostic sensor, the diagnostic module and the prognostic module in communication with the diagnostic sensor. 5. The controller according to claim 1 , wherein the telematics interface is in two way communication with a computer network. 6. The controller according to claim 1 , wherein the plurality of control settings and system parameters are supplemented with data obtained from the telematics interface. 7. The controller according to claim 1 , wherein the plurality of control settings and system parameters are supplemented with statistical information obtained from testing of the transmission. 8. The controller according to claim 7 , wherein the diagnostic module and the prognostic module are used to predict a condition of the transmission based on an evolution of the control settings and system parameters. 9. The controller according to claim 8 , wherein the prognostic module interacts with the telematics interface to schedule vehicle maintenance or to provide information to a central fleet management controller. 10. The controller according to claim 8 , wherein the prognostic module is used to determine if the evolution of the control settings and system parameters are consistent with empirical and theoretical models of the control settings and system parameter. 11. The controller according to claim 1 , wherein the telematics interface performs at least a portion of diagnostic and prognostic calculations in an offline manner to increase a precision of the diagnostic and prognostic calculations. 12. The controller according to claim 5 , wherein the telematics interface uses information about an operating environment of the vehicle in the diagnostic module and the prognostic module. 13. The controller according to claim 5 , wherein the telematics interface uses information from other vehicles obtained through a computer network. 14. The controller according to claim 13 , wherein the telematics interface adapts the interpretation of the signals from other vehicles through a central fleet management controller in order to continuously adapt the interpretation of the signals received from the other vehicles by enriching a database. 15. A method for updating a plurality of control settings and system parameters for a controller for a vehicle transmission, the method comprising the steps of: providing a control unit portion in communication with the transmission to initiate a vehicle system procedure; providing a prognostic module in two way communication with the control unit portion; providing a diagnostic module in communication with the prognostic module and in two way communication with the control unit portion; providing a telematics interface in two way communication with the control unit portion; sending a plurality of control settings and system parameters to one of the diagnostic module and the prognostic module; comparing the plurality of control settings and system parameters sent to one of the diagnostic module and the prognostic module to previously stored data stored in one of the diagnostic module and the prognostic module; and maintaining the transmission in an operational condition, wherein in response to the plurality of control settings and system parameters the controller adjusts the shifting procedures of the transmission in order to keep the vehicle in an operational state until maintenance can be performed by adjusting a pressure profile of a clutch, by avoiding the use of one or more clutches, by avoiding the use of one or more gear selections, by performing double swap shifts or by performing upshifts or downshifts more quickly thereby reducing an amount of time that the transmission operates in a particular gear ratio. 16. The method according to claim 15 , further comprising providing a vehicle dashboard in communication with the telematics interface, the control unit portion, the prognostic module, and the diagnostic module. 17. The method according to claim 15 , further comprising providing a control sensor and at least one diagnostic sensor, wherein the diagnostic module and the prognostic module are in communication with the control sensor and the at least one diagnostic sensor.