System and method for improving energy efficiency of a vehicle based on determined relationships between a plurality of routes

What is claimed is: 1. A method of optimizing energy efficiency of a vehicle for known routes, the method comprising: collecting, by a processor, and storing, in a memory, first time data of a first previously-travelled route and first location data for the first previously-travelled route; collecting, by the processor, and storing, in the memory, second time data of a second previously-travelled route and second location data for the second previously-travelled route; determining, by the processor, a link between the first previously-travelled route and the second previously-travelled route based on at least one of the first time data, the first location data, the second time data, or the second location data; categorizing, by the processor, the link between the first previously-travelled route and the second previously-travelled route into a respective link category of a plurality of link categories based on a time period between the vehicle having travelled the first previously-travelled route and the vehicle having travelled the second previously-travelled route; determining or predicting, by the processor, a predicted route that includes the first previously-travelled route and the second previously-travelled route that the vehicle will travel over; and controlling, by the processor, a sequence of a usage of an engine and a battery of the vehicle in advance of or during travelling of the vehicle on the predicted route based on the respective link category of the link between the first previously-travelled route and the second previously-travelled route to optimize the energy efficiency of the vehicle for travel along the predicted route. 2. The method of claim 1 wherein determining or predicting, by the processor, the link between the first previously-travelled route and the second previously-travelled route is based on a linking threshold. 3. The method of claim 2 wherein determining or predicting, by the processor, the predicted route includes determining or predicting that the vehicle will travel on the second previously-travelled route subsequent to traveling on the first previously-travelled route based on the determined or predicted link and the linking threshold. 4. The method of claim 2 wherein the first location data corresponds to at least a start location of the first previously-travelled route and an end location of the first previously-travelled route, and the second location data corresponds to at least a start location of the second previously-travelled route and an end location of the second previously-travelled route, the linking threshold includes a distance proximity threshold, and the processor is configured to set the link between the first previously-travelled route and the second previously-travelled route when a distance between the end location of the first previously-travelled route and the start location of the second previously-travelled route is within the distance proximity threshold. 5. The method of claim 1 further comprising storing, in the memory, the respective link category based on the first time data, the first location data, the second time data and the second location data. 6. The method of claim 1 wherein the first time data corresponds to at least a start time of the first previously-travelled route and an end time of the first previously-travelled route, and the second time data corresponds to at least a start time of the second previously-travelled route and an end time of the second previously-travelled route, and wherein the time period is between the end time of the first previously-travelled route and the start time of the second previously-travelled route. 7. The method of claim 6 wherein the processor includes an electronic control unit (ECU) connected to the engine of the vehicle, and controlling, by the processor, the sequence of the usage of the engine and the battery of the vehicle includes using the ECU to control the engine and the battery to prevent or reduce energy inefficiency corresponding to re-warming of the engine. 8. The method of claim 6 further comprising providing a motor connected to the processor for driving the vehicle using electrical energy stored in the battery of the vehicle, wherein controlling, by the processor, the sequence of the usage of the engine and the battery of the vehicle includes adjusting, by the processor, power outputted by the motor and the battery in advance of reaching the second previously-travelled route to reserve sufficient charge in the battery for travelling on the second previously-travelled route. 9. The method of claim 1 wherein the processor includes an electronic control unit (ECU), and controlling, by the processor, the sequence of the usage of the engine and the battery of the vehicle includes using the ECU to control the sequence. 10. The method of claim 1 further comprising providing a motor connected to the processor for driving the vehicle using electrical energy stored in the battery of the vehicle, wherein controlling, by the processor, the sequence of the usage of the engine and the battery of the vehicle includes adjusting, by the processor, power outputted by the motor and the battery. 11. The method of claim 1 further comprising: storing, in the memory, vehicle operation data for the first previously-travelled route and the second previously-travelled route, wherein controlling, by the processor, the sequence of the usage of the engine and the battery of the vehicle is further based on the vehicle operation data for the first previously-travelled route and the second previously-travelled route. 12. The method of claim 11 wherein the vehicle operation data includes an energy efficiency value corresponding to efficiency of utilizing power from the engine of the vehicle and power from the battery of the vehicle when the vehicle previously-travelled on the first previously-travelled route, the second previously-travelled route or a route set that includes the first previously-travelled route and the second previously-travelled route, and controlling, by the processor, the sequence of the usage of the engine and the battery of the vehicle is further based on the energy efficiency value. 13. The method of claim 1 wherein controlling, by the processor, the sequence of the usage of the engine and the battery of the vehicle is further based on a total distance of a route set that includes the linked first previously-travelled route and the second previously-travelled route. 14. A method of optimizing energy efficiency of a vehicle for known routes, the method comprising: collecting, by a processor, and storing, in a memory, first time data corresponding to a first previously-travelled route and including a start time of the first previously-travelled route and an end time of the first previously-travelled route, and second time data corresponding to a second previously-travelled route and including a start time of the second previously-travelled route and an end time of the second previously-travelled route; collecting, by the processor, and storing, in the memory, first location data corresponding to a first previously-travelled route and including a start location of the first previously-travelled route and an end location of the first previously-travelled route, and second location data corresponding to a second previously-travelled route and including a start location of the second previously-travelled route and an end location of the second previously-travelled route; storing, in the memory, a linking threshold; determining, by the processor, a link between the first previously-travelled route and the