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According to one embodiment, an apparatus for controlling fuel consumption in an internal combustion engine of a vehicle having a driver-actuated accelerator pedal includes an economy mode activation module and a standard fueling module. The economy mode activation module is configured to compare th

According to one embodiment, an apparatus for controlling fuel consumption in an internal combustion engine of a vehicle having a driver-actuated accelerator pedal includes an economy mode activation module and a standard fueling module. The economy mode activation module is configured to compare throttle input data with defined limits. The throttle input data is controllable by a driver of the vehicle via positioning of the accelerator pedal. The economy mode activation module is configured to control the fuel consumption of the internal combustion engine via an economy fuel map if the throttle input data falls within the defined limits for a defined amount of time. The standard fueling mode activation module is configured to control the fuel consumption of the internal combustion engine via a standard fuel map if the throttle input data does not fall within the defined limits for the defined amount of time.

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1. A controller for controlling fuel consumption in an internal combustion engine of a vehicle having a driver-actuated accelerator pedal, comprising: an economy fueling mode activation module configured to receive a throttle input value and determine whether the throttle input value falls within de

1. A controller for controlling fuel consumption in an internal combustion engine of a vehicle having a driver-actuated accelerator pedal, comprising: an economy fueling mode activation module configured to receive a throttle input value and determine whether the throttle input value falls within defined limits, the throttle input value being controllable by a driver of the vehicle via positioning of the accelerator pedal, wherein the economy mode activation module is configured to activate an economy fueling mode in response to determining the throttle input value falls within the defined limits for a defined amount of time while the internal combustion engine is operating under a standard fueling mode, the economy fueling mode requiring less fuel consumption than the standard fueling mode, wherein the economy mode activation module is an acceleration economy mode activation module and the throttle input value corresponds with rates of change of the position of the accelerator pedal; anda standard fueling mode activation module configured to receive the throttle input value and determine whether the throttle input value falls within the defined limits, wherein the standard fueling mode activation module is configured to activate the standard fueling mode in response to determining the throttle input value does not fall within the defined limits for the defined amount of time while the internal combustion engine is operating under the economy fueling mode. 2. A controller for controlling fuel consumption in an internal combustion engine of a vehicle having a driver-actuated accelerator pedal, comprising: an economy fueling mode activation module configured to receive a throttle input value representing a throttle valve position and determine whether the throttle input value falls within defined limits, the throttle input value being controllable by a driver of the vehicle via positioning of the accelerator pedal, wherein the economy mode activation module is configured to activate an economy fueling mode in response to determining the throttle input value falls within the defined limits for a defined amount of time while the internal combustion engine is operating under a standard fueling mode, the economy fueling mode requiring less fuel consumption than the standard fueling mode, wherein the economy mode activation module is a steady state economy mode activation module and the throttle input value comprises throttle input values corresponding with positions of the accelerator pedal; anda standard fueling mode activation module configured to receive the throttle input value and determine whether the throttle input value falls within the defined limits, wherein the standard fueling mode activation module is configured to activate the standard fueling mode in response to determining the throttle input value does not fall within the defined limits for the defined amount of time while the internal combustion engine is operating under the economy fueling mode, wherein the defined limits comprise a throttle input value upper limit and a throttle input value lower limit, and wherein a throttle input percent difference between the upper limit and lower limit is between about 10% and about 75%. 3. The controller of claim 2, wherein the throttle input percent difference is between about 10% and about 20%. 4. The controller of claim 1, wherein the defined limits comprise a throttle input rate of change value upper limit and a throttle input rate of change lower limit, and wherein the throttle input rate of change value upper limit is between about 50% and about 90% of a maximum throttle input rate of change value of the engine, and the throttle input rate of change value lower limit is between about 50% and about 90% of a maximum throttle input rate of change value of the engine. 5. The controller of claim 4, wherein the throttle input rate of change value upper limit is about 75% of the maximum throttle input rate of change value of the engine, and the throttle input rate of change value lower limit is about 50% of the maximum throttle input rate of change value of the engine. 6. The controller of claim 1, wherein the throttle input value further comprises throttle input values corresponding with positions of the accelerator pedal, wherein the defined limits further comprise a throttle input value threshold, and wherein the economy mode activation module is configured to control the fuel consumption of the internal combustion engine via an economy fuel map in response to the throttle input value falling within the defined limits for a predetermined amount of time and the throttle input values remain below the throttle input value threshold, and the standard fueling mode activation module is configured to control the fuel consumption of the internal combustion engine via a standard fuel map in response to at least one of the throttle input value not falling within the defined limits for the predetermined amount of time and the throttle input values exceed the throttle input value threshold. 7. The controller of claim 6, wherein the economy fuel map and standard fuel map each comprises respective fuel addition values for various operating conditions of the engine, and wherein the fuel addition values of the economy fuel map are lower than the fuel addition values of the standard fuel map for the same operating conditions of the engine. 8. A controller for controlling fuel consumption in an internal combustion engine of a vehicle having a driver-actuated accelerator pedal, comprising: an economy fueling mode activation module configured to receive a throttle input value representing a throttle valve position and determine whether the throttle input value falls within defined limits, the throttle input value being controllable by a driver of the vehicle via positioning of the accelerator pedal, wherein the economy mode activation module is configured to activate an economy fueling mode in response to determining the throttle input value falls within the defined limits for a defined amount of time while the internal combustion engine is operating under a standard fueling mode, the economy fueling mode requiring less fuel consumption than the standard fueling mode;a standard fueling mode activation module configured to receive the throttle input value and determine whether the throttle input value falls within the defined limits, wherein the standard fueling mode activation module is configured to activate the standard fueling mode in response to determining the throttle input value does not fall within the defined limits for the defined amount of time while the internal combustion engine is operating under the economy fueling mode; andat least one economy fuel map corresponding to the economy fueling mode, and a standard fuel map corresponding to the standard fueling mode, wherein:the economy mode activation module comprises a steady state economy mode activation module, the throttle input value comprises throttle input values corresponding with positions of the accelerator pedal, the defined limits comprise predetermined throttle input value limits, the at least one economy fuel map comprises a steady state economy fuel map, and the predetermined amount of time comprises a first defined amount of time;the apparatus further comprises an acceleration economy mode activation module configured to compare throttle input rate of change values with defined throttle input rate of change value limits, the throttle input rate of change values being controllable by the driver of the vehicle via positioning of the accelerator pedal over time, and the at least one economy fuel map comprises an acceleration economy fuel map, wherein the acceleration economy mode activation module is configured to control the fuel consumption of the internal combustion engine via the acceleration economy fuel map in response to the throttle input rate of change values falling within the throttle input rate of change value limits for a second defined amount of time; andthe standard fueling mode activation module is configured to control the fuel consumption of the internal combustion engine via the standard fuel map in response to the throttle input values not falling within the defined throttle input value limits for the first defined amount of time and the throttle input rate of change values do not fall within the throttle input rate of change value limits for the second defined amount of time. 9. The controller of claim 8, wherein the steady state economy fuel map and acceleration economy fuel map are the same. 10. The controller of claim 8, wherein the steady state economy fuel map and acceleration economy fuel map are different. 11. The controller of claim 1, wherein the defined limits comprise limits determined statically prior to operation of the engine. 12. The controller of claim 1, wherein the defined limits comprise limits determined dynamically during operation of the engine. 13. A controller for controlling fuel consumption in an internal combustion engine of a vehicle having a driver-actuated accelerator pedal, comprising: an economy fuel map, wherein the economy fuel map comprises a steady state fuel map;a standard fuel map;an acceleration fuel map; andan operating mode determination module configured to:receive a throttle input value representing a throttle valve position and switch control of a fueling operation mode of the engine to an economy fueling mode based on an economy fuel map from a standard fueling mode based on the standard fuel map and switch control of the fueling operation mode of the engine to the standard fueling mode from the economy fueling mode, the switching of the fueling operation mode of the engine based on the throttle input value; andswitch control of the fueling operation of the engine between the steady state fuel map, acceleration fuel map, and standard fuel map based on whether the position of the accelerator pedal remains within first limits for a first amount of time and whether a rate of change of the position of the accelerator pedal remains within second limits for a second amount of time. 14. The controller of claim 13, wherein control of the fueling operation of the engine is switchable between the economy and standard fuel maps via driver-controlled actuation of the accelerator pedal. 15. A method for controlling fuel consumption in an internal combustion engine of a vehicle having a driver-actuated accelerator pedal, comprising: determining whether a throttle input value falls within defined upper and lower limits for a defined period of time, wherein the throttle input value corresponds with rates of change of the position of the accelerator pedal;generating a fuel command for the engine operating under a standard fueling mode based on a standard fuel map to switch to an operation under an economy fueling mode based on an economy fuel map in response to the throttle input value falling within the defined upper and lower limits for the defined period of time, the economy fueling mode requiring less fuel consumption than the standard fueling mode; andgenerating a fuel command for the engine operating under the economy fueling mode to switch to an operation under the standard fueling mode in response to the throttle input value not falling within the defined upper and lower limits for the defined period of time, wherein the economy mode is an acceleration economy mode. 16. The method of claim 15, wherein the throttle input value comprises a position of a throttle of the engine. 17. A method for controlling fuel consumption in an internal combustion engine of a vehicle having a driver-actuated accelerator pedal, comprising: determining whether a throttle input value falls within defined upper and lower limits for a defined period of time, wherein the throttle input value comprises a rate of change of the position of a throttle of the enginegenerating a fuel command for the engine operating under a standard fueling mode based on a standard fuel map to switch to an operation under an economy fueling mode based on an economy fuel map in response to the throttle input value falling within the defined upper and lower limits for the defined period of time, the economy fueling mode requiring less fuel consumption than the standard fueling mode; andgenerating a fuel command for the engine operating under the economy fueling mode to switch to an operation under the standard fueling mode in response to the throttle input value not falling within the defined upper and lower limits for the defined period of time. 18. The method of claim 15, further comprising, responsive to receiving an indication of actuation of the accelerator pedal, switching between generating the fuel command for the engine based on the economy fuel map and generating the fuel command for the engine based on the standard fuel map.