Using train telematics data to provide information in one or more vehicles to reduce accident risk

What is claimed: 1. A computer system configured to use train telematics data to reduce accident risk, the computer system comprising: a mobile device traveling within a vehicle, the mobile device including: at least one of one or more processors or one or more transceivers, the at least one of the one or more processors or the one or more transceivers configured to: receive, at the mobile device via wireless communication or data transmission, the train telematics data associated with a train, the train telematics data including location and speed data; determine, at the mobile device based upon the train telematics data, an indication of when the train will pass through or be within a predetermined distance of a railroad crossing; determine, at the mobile device based upon a relevance of the train, an alternate route for the vehicle to take to avoid waiting at the railroad crossing to allow for the train to pass through the railroad crossing, the relevance of the train being based upon the indication of when the train will pass through or be within the predetermined distance of the railroad crossing; and cause, based upon the relevance of the train, the mobile device or a vehicle navigation system to provide a graphical user interface (GUI) including a display of (i) an indication that the train will pass through or be within the predetermined distance of the railroad crossing and (ii) the alternate route, to facilitate the train safely passing through the railroad crossing. 2. The computer system of claim 1 , wherein the vehicle is an autonomous vehicle, and at least one of the one or more processors is configured to determine an alternate route for the autonomous vehicle to take to avoid waiting at the railroad crossing. 3. The computer system of claim 2 , wherein the telematics data associated with the vehicle includes at least one of location, acceleration, deceleration, braking, cornering, direction, heading, left turn, right turn, speed, lane, or gyroscope data associated with the vehicle. 4. The computer system of claim 1 , wherein the at least one of the one or more processors or the one or more transceivers are configured to determine the indication of when the train will pass through or be within the predetermined distance of the railroad crossing based upon at least one of (1) at least one of the location data or speed data, or (2) comparison via the one or more processors of (i) the at least one of the location data or speed data with (ii) at least one of a current time or location data of one of the railroad crossing. 5. The computer system of claim 1 , wherein the train telematics data further includes one or more of time, braking, cornering, direction, heading, left turn, right turn, track, GPS (Global Positioning System) latitude and longitude, gyroscope, battery level, or telephone usage data associated with the train. 6. The computer system of claim 1 , further comprising an insurance provider remote server, wherein the at least one of the one or more processors or the one or more transceivers are configured to send an indication to the insurance provider remote server that the mobile device traveling within the vehicle includes risk mitigation or prevention functionality associated with (1) receiving the train telematics data, and (2) directing corrective actions based upon the relevance of the train, so as to cause the insurance provider remote server to at least one of display, adjust, or generate an insurance discount associated with the vehicle. 7. The computer system of claim 6 , wherein the at least one of the one or more processors or the one or more transceivers are configured to send an indication of an amount of usage of the risk mitigation or prevention functionality to the insurance provider remote server so as to cause the insurance provider remote server to at least one of display, adjust, or generate the insurance discount as a time or mileage usage-based insurance discount. 8. A computer-implemented method of using train telematics data to reduce accident risk, the method comprising: receiving, at a mobile device traveling within a vehicle via at least one of one or more processors of the mobile device or one or more associated transceivers via wireless communication or data transmission, the train telematics data associated with a train, the train telematics data including location and speed data; determining, at the mobile device via the one or more processors of the mobile device based upon the train telematics data, (1) an indication of when the train will pass through a railroad crossing, or (2) an indication of when the train will be within a predetermined distance of the railroad crossing; determining, at the mobile device via the one or more processors of the mobile device, based upon a relevance of the train, an alternate route for the vehicle to take to avoid waiting at the railroad crossing to allow for the train to pass through the railroad crossing, the relevance of the train being based upon (1) the indication of when the train will pass through the railroad crossing, or (2) the indication of when the train will be within the predetermined distance of the railroad crossing; and causing, via the one or more processors of the mobile device, based upon the relevance of the train, the mobile device or a vehicle navigation system to provide a graphical user interface (GUI) including a display of (i) an indication that the train will pass through or be within the predetermined distance of the railroad crossing and (ii) the alternate route, to facilitate the train safely passing through the railroad crossing. 9. The computer-implemented method of claim 8 , the method comprising determining, via the one or more processors of the mobile device, the relevance of the train by determining, based upon (1) the indication of when the train will pass through the railroad crossing, or (2) the indication of when the train will be within the predetermined distance of the railroad crossing, and further based upon telematics data associated with the vehicle, an indication of whether the vehicle will be able to drive through the railroad crossing without the train being within a threshold distance from the railroad crossing. 10. The computer-implemented method of claim 8 , wherein the vehicle is an autonomous vehicle, and the method further comprises determining, via the one or more processors, an alternate route for the autonomous vehicle to take to avoid waiting at the railroad crossing. 11. The computer-implemented method of claim 8 , wherein determining, via the one or more processors of the mobile device, the indication of when the train will pass through the railroad crossing is based upon at least one of (1) at least one of the location data or speed data, or (2) comparison of (i) the at least one of the location data or the speed data with (ii) at least one of a current time or location data of one of the railroad crossing. 12. The computer-implemented method of claim 8 , wherein the train telematics data includes one or more of time, braking, cornering, direction, heading, left turn, right turn, track, GPS (Global Positioning System) latitude and longitude, gyroscope, battery level, or telephone usage data associated with the train. 13. The computer-implemented method of claim 8 , the method comprising sending, via the at least one of the one or more processors of the mobile device or the one or more associated transceivers, an indication to an insurance provider remote server that the mobile device traveling within the vehicle includes risk mitigation or prevention functionality associated with (1) receiving the train telemati