Multi fuel engine substitution optimization for transient performance

What is claimed is: 1. A method for mapping transient events for a machine operating at a worksite, comprising: determining at an electronic control module associated with the machine a transmission gear shift schedule for the machine based on a shift control logic strategy for the machine and worksite map information for the worksite in which the machine will operate; storing gear shift transient event coordinates for gear shift transient events identified in the transmission gear shift schedule in a memory associated with the machine; retrieving from the memory a first fuel substitution strategy for providing a mixture of available fuels to a multi fuel engine of the machine; comparing the gear shift transient events to the first fuel substitution strategy; for each gear shift transient event, determining whether a gear shift fuel substitution adjustment to the first fuel substitution strategy is required based on the comparison of the gear shift transient event to the first fuel substitution strategy; storing the fuel substitution adjustments in the memory; operating the machine at the worksite under control of the electronic control module according to the first fuel substitution strategy; determining at the electronic control module whether the machine is approaching the gear shift transient event coordinates for one of the gear shift transient events; determining at the electronic control module whether the one of the gear shift transient events will occur when the machine arrives at the gear shift transient event coordinates for one of the gear shift transient events based on current machine operating conditions; and executing the gear shift fuel substitution adjustment corresponding to the one of the gear shift transient events when the machine arrives at the gear shift transient event coordinates for the one of the gear shift transient events in response to determining that the one of the gear shift transient events will occur. 2. The method for mapping transient events of claim 1 , comprising: determining at the electronic control module non-gear shift transient events that may occur at the worksite based on the worksite map information; and storing non-gear shift transient event coordinates for non-gear shift transient events identified from the worksite map information. 3. The method for mapping transient events of claim 2 , comprising: comparing the non-gear shift transient events to the first fuel substitution strategy; for each non-gear shift transient event, determining whether a non-gear shift fuel substitution adjustment to the first fuel substitution strategy is required based on the comparison of the non-gear shift transient event to the first fuel substitution strategy; and storing the non-gear shift fuel substitution adjustments in the memory. 4. The method for mapping transient events of claim 3 , wherein the non-gear shift transient events comprise machine speed changes. 5. The method for mapping transient events of claim 3 , wherein the non-gear shift transient events comprise grade changes to an operating surface of the worksite over which the machine is traveling. 6. The method for mapping transient events of claim 1 , comprising: determining whether the first fuel substitution strategy is a last fuel substitution strategy stored in the memory; and retrieving a second fuel substitution strategy from the memory in response to determining that the first fuel substitution strategy is not the last fuel substitution strategy. 7. The method for mapping transient events of claim 1 , wherein the worksite map information includes at least one of machine speed limits, machine travel routes through the worksite, and topographical information for the worksite. 8. A multi fuel engine system for a machine; comprising: a multi fuel engine; an engine speed control configured to output an engine speed control signal indicating a desired engine speed for the machine; a plurality of actuators, wherein each of the plurality of actuators corresponds to a fluid flow control device for one of a plurality of fuels that are available for providing power to the multi fuel engine by causing a flow of the corresponding one of the plurality of fuels to the multi fuel engine; a memory associated with the machine; and an electronic control module operatively connected to the engine speed control, the plurality of actuators and the memory, wherein: the electronic control module is configured to determine a transmission gear shift schedule for the machine based on a shift control logic strategy for the machine and worksite map information for a worksite in which the machine will operate stored in the memory, the electronic control module is configured to store in the memory gear shift transient event coordinates for gear shift transient events identified in the transmission gear shift schedule, the electronic control module is configured to retrieve from the memory a first fuel substitution strategy for providing a mixture of available fuels to the multi fuel engine via the fluid flow control devices, the electronic control module is configured to compare the gear shift transient events to the first fuel substitution strategy, the electronic control module is configured to determine, for each gear shift transient event, whether a gear shift fuel substitution adjustment to the first fuel substitution strategy is required based on the comparison of the gear shift transient event to the first fuel substitution strategy, and the electronic control module is configured to store the fuel substitution adjustments in the memory, the electronic control module is configured to operate the machine at the worksite according to the first fuel substitution strategy, the electronic control module is configured to determine whether the machine is approaching the gear shift transient event coordinates of one of the gear shift transient events, the electronic control module is configured to determine whether the one of the gear shift transient events will occur when the machine arrives at the gear shift transient event coordinates of the one of the gear shift transient events based on current machine operating conditions, and the electronic control module is configured to execute the gear shift fuel substitution adjustment corresponding to the one of the gear shift transient events when the machine arrives at the gear shift transient event coordinates of the one of the gear shift transient events in response to determining that the one of the gear shift transient events will occur. 9. The multi fuel engine system of claim 8 , wherein the electronic control module is configured to determine non-gear shift transient events that may occur at the worksite based on the worksite map information, and to store in the memory non-gear shift transient event coordinates for the non-gear shift transient events identified from the worksite map information. 10. The multi fuel engine system of claim 9 , wherein the electronic control module is configured to compare the non-gear shift transient events to the first fuel substitution strategy, to determine, for each non-gear shift transient event, whether a non-gear shift fuel substitution adjustment to the first fuel substitution strategy is required based on the comparison of the non-gear shift transient event to the first fuel substitution strategy, and to store the non-gear shift fuel substitution adjustments in the memory. 11. The multi fuel engine system of claim 10 , wherein the non-gear shift transient events comprise machine speed changes. 12. The multi fuel engine system of claim 10 , wherein the non-gear shift transient e