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A method is disclosed for thermal management of an engine comprising a continuously variable transmission. The method includes an engine capability module storing a torque-speed map comprising a first region where the engine inefficiently regenerates an aftertreatment device, a second region where t

A method is disclosed for thermal management of an engine comprising a continuously variable transmission. The method includes an engine capability module storing a torque-speed map comprising a first region where the engine inefficiently regenerates an aftertreatment device, a second region where the engine efficiently regenerates the aftertreatment device, and a third region where the engine is not capable of regenerating the aftertreatment device. The method further includes an aftertreatment determination module determining a regeneration index, an operating conditions module determining an engine speed and an engine load, and a speed-load adjustment module adjusting a speed-load target. The method further includes the speed-load adjustment module adjusting the speed-load target to a preferred region along equal power curves of the torque-speed map based on the regeneration index.

대표청구항 ▼

What is claimed is: 1. An apparatus for thermal management of an engine comprising a continuously variable transmission, the apparatus comprising: an engine capability module configured to store a torque-speed map corresponding to an engine, the torque-speed map having a first region wherein the en

What is claimed is: 1. An apparatus for thermal management of an engine comprising a continuously variable transmission, the apparatus comprising: an engine capability module configured to store a torque-speed map corresponding to an engine, the torque-speed map having a first region wherein the engine does not efficiently regenerate an aftertreatment device; an aftertreatment determination module configured to determine a regeneration index for an aftertreatment device; an operating conditions module configured to determine an engine speed and an engine load; and a speed-load adjustment module configured to adjust a speed-load target out of the first region based on the regeneration index. 2. The apparatus of claim 1, wherein storing the torque-speed map having a first region further comprises storing the torque-speed map having a second region wherein the engine efficiently regenerates the aftertreatment device, and wherein adjusting the speed-load target out of the first region comprises adjusting the speed-load target out of the first region and into the second region based on the regeneration index. 3. The apparatus of claim 1, wherein storing the torque-speed map further comprises storing the torque-speed map having a second region wherein the engine efficiently regenerates the aftertreatment device, and wherein storing the torque-speed map further comprises the torque-speed map having a third region wherein the engine is not capable of regenerating an aftertreatment device, and wherein adjusting the speed-load target comprises adjusting the speed-load target out of the third region and into the second region based on the regeneration index. 4. The apparatus of claim 1, wherein storing the torque-speed map further comprises storing the torque-speed map having a third region wherein the engine is not capable of regenerating an aftertreatment device, and wherein adjusting the speed-load target comprises adjusting the speed-load target out of the third region and into the first region based on the regeneration index. 5. The apparatus of claim 1, wherein the torque-speed map having a first region wherein the engine does not efficiently regenerate the aftertreatment device further comprises the engine regenerating the aftertreatment device by changing at least one base behavior of the engine selected from the list of base behaviors consisting of adjusting a number of fuel injections, adjusting a fuel quantity, adjusting a fuel timing, adjusting a time interval between two fuel injections, adjusting an air-fuel ratio, adjusting an engine pumping work loss, adjusting a variable geometry turbocharger, adjusting an intake air throttle, and adjusting an exhaust air throttle. 6. The apparatus of claim 1, wherein the operating conditions module is further configured to determine an ambient temperature, and the engine capability module is further configured to adjust the first region based on the ambient temperature. 7. The apparatus of claim 1, wherein adjusting the speed-load target comprises adjusting along an equal power curve. 8. The apparatus of claim 7, wherein adjusting the speed-load target along the equal power curve comprises adjusting to a point on an optimal speed-load line. 9. A method for thermal management of an engine comprising a continuously variable transmission, the method comprising: storing a torque-speed map corresponding to an engine, the torque-speed map having a first region wherein the engine does not efficiently regenerate an aftertreatment device; determining a regeneration index for the aftertreatment device; determining an engine speed and an engine load; and adjusting a speed-load target out of the first region based on the regeneration index. 10. The method of claim 9, wherein storing the torque-speed map having a first region further comprises storing the torque-speed map having a second region wherein the engine efficiently regenerates the aftertreatment device, and wherein adjusting the speed-load target out of the first region comprises adjusting the speed-load target out of the first region and into the second region based on the regeneration index. 11. The method of claim 9, wherein storing the torque-speed map further comprises storing the torque-speed map having a second region wherein the engine efficiently regenerates the aftertreatment device, and wherein storing the torque-speed map further comprises the torque-speed map having a third region wherein the engine is not capable of regenerating an aftertreatment device, and wherein adjusting the speed-load target comprises adjusting the speed-load target out of the third region and into the second region based on the regeneration index. 12. The method of claim 9, wherein storing the torque-speed map further comprises storing the torque-speed map having a third region wherein the engine is not capable of regenerating an aftertreatment device, and wherein adjusting the speed-load target comprises adjusting the speed-load target out of the third region and into the first region based on the regeneration index. 13. The method of claim 9, wherein the torque-speed map having a first region wherein the engine does not efficiently regenerate the aftertreatment device further comprises the engine regenerating the aftertreatment device by adjusting at least one of a number of fuel injections, a fuel quantity, a fuel timing, and a time interval between two fuel injections. 14. The method of claim 9, wherein the torque-speed map having a first region wherein the engine does not efficiently regenerate the aftertreatment device further comprises the engine regenerating the aftertreatment device by changing an air-fuel ratio. 15. The method of claim 9, wherein the torque-speed map having a first region wherein the engine does not efficiently regenerate the aftertreatment device further comprises the engine regenerating the aftertreatment device by changing an engine pumping work loss. 16. The method of claim 9, wherein the torque-speed map having a first region wherein the engine does not efficiently regenerate the aftertreatment device further comprises the engine regenerating the aftertreatment device by adjusting an exhaust flow. 17. The method of claim 9, further comprising determining an ambient temperature, and adjusting the first region based on the ambient temperature. 18. The method of claim 9, wherein adjusting the speed-load target comprises adjusting along an equal power curve. 19. The method of claim 18, wherein adjusting the speed-load target along the equal power curve comprises adjusting to a point on an optimal speed-load line. 20. A computer program product comprising a computer readable medium having a computer readable program, wherein the computer readable program when executed on a computer causes the computer to: store a torque-speed map corresponding to an engine, the torque-speed map having a first region wherein the engine does not efficiently regenerate an aftertreatment device; determine a regeneration index for an aftertreatment device; determine an engine speed and an engine load; and adjust a speed-load target out of the first region based on the regeneration index. 21. The computer program product of claim 20, wherein storing the torque-speed map having a first region further comprises storing the torque-speed map having a second region wherein the engine efficiently regenerates the aftertreatment device, and wherein adjusting the speed-load target out of the first region comprises adjusting the speed-load target out of the first region and into the second region based on the regeneration index. 22. The computer program product of claim 20, wherein storing the torque-speed map further comprises storing the torque-speed map having a second region wherein the engine efficiently regenerates the aftertreatment device, and wherein storing the torque-speed map further comprises the torque-speed map having a third region wherein the engine is not capable of regenerating an aftertreatment device, and wherein adjusting the speed-load target comprises adjusting the speed-load target out of the third region and into the second region based on the regeneration index. 23. The computer program product of claim 20, wherein storing the torque-speed map further comprises storing the torque-speed map having a third region wherein the engine is not capable of regenerating an aftertreatment device, and wherein adjusting the speed-load target comprises adjusting the speed-load target out of the third region and into the first region based on the regeneration index. 24. The computer program product of claim 20, wherein the torque-speed map having a first region wherein the engine does not efficiently regenerate the aftertreatment device further comprises the engine regenerating the aftertreatment device by changing at least one base behavior selected from the list of base behaviors consisting of changing a fuel timing, changing an air-fuel ratio, changing a turbine pressure drop, and changing an exhaust throttle pressure drop. 25. The computer program product of claim 20, further comprising determining an ambient temperature, and adjusting the first region based on the ambient temperature. 26. The computer program product of claim 20, wherein adjusting the speed-load target comprises adjusting along an equal power curve. 27. The computer program product of claim 26, wherein adjusting the speed-load target along the equal power curve comprises adjusting to a point on an optimal speed-load line. 28. A system for thermal management of an engine comprising a continuously variable transmission, the system comprising: an engine coupled to a continuously variable transmission (CVT); an apparatus for thermal management of the engine, the apparatus comprising: an engine capability module configured to store a torque-speed map corresponding to the engine, the torque-speed map having a first region wherein the engine does not efficiently regenerate an aftertreatment device; an aftertreatment determination module configured to determine a regeneration index for an aftertreatment device; an operating conditions module configured to determine an engine speed and an engine load; and a speed-load adjustment module configured to adjust a speed-load target out of the first region based on the regeneration index. 29. The system of claim 28, wherein storing the torque-speed map having a first region further comprises storing the torque-speed map having a second region wherein the engine efficiently regenerates the aftertreatment device, and wherein adjusting the speed-load target out of the first region comprises adjusting the speed-load target out of the first region and into the second region. 30. The system of claim 28, wherein storing the torque-speed map further comprises storing the torque-speed map having a second region wherein the engine efficiently regenerates the aftertreatment device, and wherein storing the torque-speed map further comprises the torque-speed map having a third region wherein the engine is not capable of regenerating an aftertreatment device, and wherein adjusting the speed-load target comprises adjusting the speed-load target out of the third region and into the second region. 31. The system of claim 28, wherein storing the torque-speed map further comprises storing the torque-speed map having a third region wherein the engine is not capable of regenerating an aftertreatment device, and wherein adjusting the speed-load target comprises adjusting the speed-load target out of the third region and into the first region. 32. The system of claim 28, wherein the torque-speed map having a first region wherein the engine does not efficiently regenerate the aftertreatment device further comprises the engine regenerating the aftertreatment device by changing at least one base behavior of the engine selected from the list of base behaviors consisting of adjusting a number of fuel injections, adjusting a fuel quantity, adjusting an engine timing, adjusting a time interval between two fuel injections, adjusting an air-fuel ratio, adjusting an engine pumping work loss, adjusting a variable geometry turbocharger, adjusting an intake air throttle, and adjusting an exhaust air throttle. 33. The system of claim 28, wherein adjusting the speed-load target comprises adjusting along an equal power curve. 34. The system of claim 33, wherein adjusting the speed-load target along the equal power curve comprises adjusting to a point on an optimal speed-load line.