Vehicle control system

What is claimed is: 1. A vehicle control system comprising: a controller configured to control communication between or among vehicle devices that control operation of a vehicle system via a network that communicatively couples the vehicle devices, the controller configured to control the communication using a data distribution service (DDS) and with the network operating as a time sensitive network (TSN); wherein the controller is configured to direct a first set of the vehicle devices to communicate using time sensitive communications, a different, second set of the vehicle devices to communicate using best effort communications, and a different, third set of the vehicle devices to communicate using rate constrained communications; wherein the controller is configured to receive data frames via the time sensitive network, determine classifications for the data frames based on a presence of at least one pattern in the data frames, generate a communication schedule for the data frames based on the classifications of the data frames, direct the vehicle devices to communicate the data frames based on the schedule, and direct control of one or more operations of the vehicle system based on the data frames that are communicated; and wherein the controller includes a ternary content addressable memory and is configured to determine a presence of the at least one pattern based on a comparison of data in the data frames to a pattern data map received at the ternary content addressable memory, wherein the pattern data map is used to determine when the data frames are communicated. 2. The vehicle control system of claim 1 , wherein the controller is configured to obtain the at least one pattern from outside of headers of the data frames. 3. The vehicle control system of claim 1 , wherein the controller is configured to obtain the at least one pattern from payloads of the data frames. 4. The vehicle control system of claim 1 , wherein the controller is configured to determine that first data frames of the data frames include the at least one pattern and that second data frames of the data frames do not include the at least one pattern, and the controller is configured to direct the vehicle devices to drop the second data frames based on the second data frames not including the at least one pattern. 5. The vehicle control system of claim 1 , wherein the controller is configured to determine a user datagram protocol (UDP) source or destination port number as the at least one pattern in the data frames. 6. The vehicle control system of claim 1 , wherein the time sensitive network is an Ethernet network at least partially disposed onboard the vehicle system. 7. The vehicle control system of claim 1 , wherein the vehicle devices include two or more of an input/output device, an engine control unit, a traction motor controller, a display device, an auxiliary load controller, or one or more sensors. 8. The vehicle control system of claim 7 , wherein one or more of the engine control unit or the traction motor controller is included in the first set of the vehicle devices using the time sensitive communications. 9. The vehicle control system of claim 1 , wherein the controller is configured to direct the first set of the vehicle devices to communicate using the time sensitive communications such that the time sensitive communications are completed using bandwidth of the network while the second and third sets of the vehicle devices communicate the best effort communications and the rate constrained communications using a remaining amount of bandwidth of the network that is not used by the time sensitive communications. 10. The vehicle control system of claim 1 , wherein the controller is configured to receive a schedule for communication of the data frames to one or more of the vehicle devices via the time sensitive network; wherein the controller also is configured to receive destinations for the data frames, receive an upper limit on a tolerable latency for the data frames, communicate one or more of the data frames according to the schedule, access the one or more vehicle devices, verify that the one or more data frames were communicated to the one or more vehicle devices within the upper limit on the tolerable latency based on accessing the one or more vehicle devices, and control one or more operations of the vehicle based on the one or more data frames that are communicated. 11. The system of claim 10 , wherein the controller is configured to determine whether arrival times of the data frames are within a specified time window for each of the data frames that arrives at a vehicle device of the vehicle devices. 12. The system of claim 10 , wherein the controller is configured to determine whether departure times of the data frames are within scheduled departure times of the data frames for each of the data fames that does not arrive at a vehicle device of the vehicle devices. 13. A method for controlling one or more operations of a vehicle system, the method comprising: controlling communication between or among vehicle devices that control operation of the vehicle system via a network that communicatively couples the vehicle devices, the communication controlled using a data distribution service (DDS) and with the network operating as a time sensitive network (TSN), the communication controlled by receiving data frames via the time sensitive network, comparing data in the data frames to a pattern data map to determine at least one pattern in the data frames, determining classifications for the data frames based on a presence of the at least one pattern in the data frames, and generating a communication schedule for the one or more data frames based on the classifications of the data frames that is based on comparing the data in the data frames to the pattern data map to determine the at least one pattern in the data frames; directing a first set of the vehicle devices to communicate using time sensitive communications according to the communication schedule; directing a different, second set of the vehicle devices to communicate using best effort communications according to the communication schedule; and directing a different, third set of the vehicle devices to communicate using rate constrained communications according to the communication schedule. 14. The method of claim 13 , wherein directing the first set of the vehicle devices includes controlling operation of one or more of an engine control unit or a traction motor controller of the vehicle system using the time sensitive communications. 15. The method of claim 13 , wherein directing the first set of the vehicle devices to communicate using the time sensitive communications includes completing the time sensitive communications using bandwidth of the network, and wherein directing the second set of the vehicle devices to communicate using the best effort communications and directing the third set of the vehicle devices to communicate using the rate constrained communications are completed using a remaining amount of bandwidth of the network that is not used by the time sensitive communications. 16. The method of claim 13 , further comprising: controlling one or more operations of the vehicle based on the data frames that are communicated. 17. The method of claim 13 , further comprising: receiving destinations for the data frames; and receiving an upper limit on a tolerable latency for the data frames, wherein one or more of the data frames are communicated according to the communication schedule; accessing one or more vehicle d