Blended service schedule for a power generator

What is claimed is: 1. A power generation system, comprising: a housing; a power generator operatively connected to an engine speed sensor and provided within the housing; and a control system disposed within the housing and having a processor, the control system communicably coupled to the engine speed sensor, the processor configured to: receive usage-based data regarding at least one usage-based component or consumable of the power generator, the usage-based data including at least one of when to perform maintenance of a charge air piping, a spark plug wire, a battery cable, a coolant filter, a turbocharger, an emergency stop control, an electrical cable, an engine cleaning, a heated oxygen sensor, a cylinder head, a cooling fan or a cooling fan drive belt, a fuel line seal, or a fuel pressure regulator; determine a usage-based service schedule for the one or more usage-based components or consumables based on the usage-based data; receive operation-based data regarding at least one of an operation-based component or consumable of the power generator, the at least one operation-based component or consumable including a spark plug, a volume of oil, an oil filter, or an air filter, at least a portion of the operation-based data received from the engine speed sensor; determine that at least one of an operation-based component or consumable is operating or predicted to operate outside of a predefined acceptable operating range based on the operation-based data; determine a predictive operation-based service schedule for the one or more operation-based components or consumables based on the operation-based data, wherein the predictive operation-based service schedule includes the at least one operation-based component or consumable operating or predicted to operate outside of the predefined acceptable operating range; generate a blended service schedule, the blended service schedule including the usage-based service schedule and the predictive operation-based service schedule; provide, to at least one of a local monitor or a remote monitor, the blended service schedule; and provide an alert to at least one of the local monitor or the remote monitor regarding the at least one operation-based component or consumable operating or predicted to operate outside of the predefined acceptable operating range; wherein the operation-based data includes at least one of an indication of a duration of operation, an engine speed, an oil temperature, a fuel consumption rate, an exhaust temperature, a compression ratio of an engine, a spark plug voltage, a brake mean effective pressure, an air-to-fuel ratio, a power output, or an engine temperature, of the power generator. 2. The system of claim 1 , wherein the when to perform maintenance is based on the duration of operation of the power generator. 3. The system of claim 1 , wherein the processor is configured to prioritize the one or more usage-based components or consumables and the one or more operation-based components or consumables in the blended service schedule based on at least one of an estimated time to completion, an ability to bundle service events, or an urgency of service due. 4. The system of claim 1 , wherein the processor is configured to determine that at least one of an operation-based component or consumable is operating within a predefined acceptable operating range based on the operation-based data and include the at least one operation-based component or consumable operating within the predefined acceptable operating range on the predictive operation-based service schedule. 5. The system of claim 1 , wherein the processor is configured to receive an input from one or more of an operator, a maintenance provider, or a distributor, the input including a service action taken in regard to a scheduled service event, and wherein the processor is configured to update the blended service schedule in response to the service action taken. 6. A power generation system, comprising: a housing; a power generator operatively connected to a plurality of sensors and provided within the housing; and a processor disposed within the housing, the processor configured to: receive usage-based data regarding one or more usage-based components or consumables of the power generator; determine a usage-based service schedule for the one or more usage-based components or consumables based on the usage-based data, wherein the usage-based components or consumables are replaced or serviced based on hours of operation or calendar time in service; receive operation-based data from the plurality of sensors regarding one or more operation-based components or consumables of the power generator; determine that at least one of an operation-based component or consumable is operating or predicted to operate outside of a predefined acceptable operating range based on the operation-based data; determine a predictive operation-based service schedule for the one or more operation-based components or consumables based on the operation-based data, wherein the operation-based components or consumables are replaced or serviced based on a predefined range of operation of the operation-based component or consumable, and wherein the predictive operation-based service schedule includes the at least one operation-based component or consumable operating or predicted to operate outside of the predefined acceptable operating range; generate a blended service schedule, the blended service schedule including the usage-based service schedule and the predictive operation-based service schedule; provide the blended service schedule to at least one of a local monitor or a remote monitor; and provide an alert to at least one of the local monitor or the remote monitor regarding the at least one operation-based component or consumable operating or predicted to operate outside of the predefined acceptable operating range. 7. The system of claim 6 , wherein the processor is configured to prioritize the one or more usage-based components or consumables and the one or more operation-based components or consumables in the blended service schedule based on at least one of an estimated time to completion, an ability to bundle service events, or an urgency of service due. 8. The system of claim 6 , wherein the processor is configured to selectively alter scheduled maintenance of one or more operation-based or usage-based components and consumables on the blended service schedule both forward and backward in time in the blended service schedule if within a predetermined threshold range for the component or consumable. 9. The system of claim 6 , wherein the processor is configured to provide a notification based on the blended service schedule, wherein the notification includes at least one of a reminder regarding an upcoming service event or an alert to order a replacement component in advance of the upcoming service event. 10. The system of claim 6 , wherein the processor is configured to receive an input from an operator, a maintenance provider, or a distributor, the input including a service action taken in regard to a scheduled service event, and wherein the processor is configured to update the blended service schedule in response to the service action taken. 11. The system of claim 10 , wherein the service action taken includes at least one of a completion date, a dismissed date, or an extended date. 12. The system of claim 6 , wherein the processor is configured to generate a combined blended service schedule, wherein the combined blended service schedule combines the blended service schedule of one or more associated power generators if geographically proximate or