Vehicular mitigation system based on wireless vehicle data

What is claimed is: 1 . A method executed by an onboard vehicle computer system of an ego vehicle, the method comprising: receiving, via a Dedicated Short Range Communication (“DSRC”) module of the ego vehicle, a DSRC-based wireless message that includes wireless vehicle data and is wirelessly received via a DSRC channel of the DSRC module, wherein the DSRC-based wireless message and the wireless vehicle data are compliant with a DSRC standard regulating a transmission of the DSRC-based wireless message and content of the wireless vehicle data; determining that the wireless vehicle data describes a presence of a traffic obstruction that is at a location downstream of the ego vehicle and within a same lane of travel as the ego vehicle, wherein the location is described by the wireless vehicle data with lane-level accuracy; determining a preceding velocity of a preceding vehicle that is traveling directly in front of the ego vehicle; and modifying an ego velocity of the ego vehicle based on the preceding velocity and the presence of the traffic obstruction, wherein the ego velocity is modified by the onboard vehicle computer system so that the ego velocity is substantially equal to the preceding velocity prior to the ego vehicle arriving at the location of the traffic obstruction and the ego vehicle does not collide with a set of downstream vehicles including the preceding vehicle. 2 . The method of claim 1 , further comprising: determining a downstream velocity of a downstream vehicle that is located, when compared to the preceding vehicle, further downstream of the ego vehicle than the preceding vehicle; and wherein modifying the ego velocity includes modifying the ego velocity of the ego vehicle based on the preceding velocity, the downstream velocity and the presence of the traffic obstruction, wherein the ego velocity is modified by the onboard vehicle computer system so that the ego velocity is less than or substantially equal to the preceding velocity within an initial time period and less than or substantially equal to the downstream velocity and the preceding velocity prior to the ego vehicle arriving at the location of the traffic obstruction so that the ego vehicle does not collide with the preceding vehicle or the downstream vehicle. 3 . The method of claim 1 , wherein the onboard vehicle computer system does not have knowledge of a wireless network which transmits data among the ego vehicle and one or more connected devices. 4 . A method executed by an onboard vehicle computer system of an ego vehicle that is Dedicated Short Range Communication-equipped (“DSRC-equipped”), the method comprising: receiving a wireless message that includes wireless vehicle data that is compliant with a DSRC standard; determining that the wireless vehicle data describes a presence of a traffic obstruction that is at a location downstream of the ego vehicle and within a same road of travel as the ego vehicle; and modifying, by the onboard vehicle computer system, an ego velocity of the ego vehicle prior to the ego vehicle arriving at the location. 5 . The method of claim 4 , wherein the wireless message is a DSRC-based wireless message. 6 . The method of claim 4 , wherein the wireless vehicle data includes Basic Safety Message data (“BSM data”). 7 . The method of claim 4 , wherein the wireless vehicle data describes the location with lane-level accuracy. 8 . The method of claim 7 , wherein lane-level accuracy includes the location being described by the wireless vehicle data with an accuracy of substantially plus or minus 1.5 meters where a specific lane of a roadway which is traveled in by the downstream vehicle at a specific time is substantially 3 meters wide. 9 . The method of claim 4 , further comprising: determining a preceding velocity of a preceding vehicle that is traveling directly in front of the ego vehicle; and wherein modifying the ego velocity includes modifying the ego velocity based on the preceding velocity and the presence of the traffic obstruction so that the ego velocity is less than or substantially equal to the preceding velocity prior to the ego vehicle arriving at the location of the traffic obstruction. 10 . The method of claim 9 , further comprising executing an onboard sensor of the ego vehicle to generate sensor data describing one or more velocities of one or more vehicles traveling on the same road of travel. 11 . The method of claim 10 , wherein the onboard sensor includes one or more of a range finder sensor and a RADAR sensor. 12 . The method of claim 10 , wherein the sensor data describes the ego velocity and the preceding velocity at a specific time. 13 . The method of claim 10 , wherein the wireless vehicle data describes a velocity of one or more downstream vehicles at one or more specific times, a location of one or more downstream vehicles with lane-level accuracy at the one or more specific times and one or more kinematics of the one or more downstream vehicles at the one or more specific times. 14 . The method of claim 13 , wherein determining that the wireless vehicle data describes the traffic obstruction includes analyzing the wireless vehicle data to identify the presence of the traffic obstruction based on one or more patterns of behavior of the one or more downstream vehicles over the one or more specific times. 15 . The method of claim 4 , wherein the wireless message is transmitted by one or more of a preceding vehicle, a downstream vehicle, a roadside unit and a server. 16 . The method of claim 15 , wherein the wireless vehicle data describes one or more of the preceding vehicle and the downstream vehicle. 17 . The method of claim 4 , further comprising the onboard vehicle computer system providing acceleration data to an Advanced Driver Assistance System (“ADAS system”) of the ego vehicle, wherein the acceleration data describes an acceleration for modifying the ego velocity of the ego vehicle, and the ADAS system modifying the acceleration of the ego vehicle so that the ego velocity is less than or substantially equal to a preceding velocity of a preceding vehicle traveling directly in front of the ego vehicle in a same lane of travel as the ego vehicle. 18 . The method of claim 17 , wherein the method is executed at a specific time described by the wireless vehicle data and the method is repeated substantially every 0.10 seconds based on new wireless vehicle data for a new wireless message, wherein the new wireless vehicle data describes a new time that is substantially 0.10 seconds subsequent to the specific time so that the ego velocity gradually decreases as the ego vehicle approaches the traffic obstruction. 19 . A system of a Dedicated Short Range Communication-equipped (“DSRC-equipped”) ego vehicle comprising: a communication unit that is operable to receive a wireless message that includes DSRC-based wireless vehicle data; an onboard vehicle computer system of the ego vehicle that is communicatively coupled to the communication unit and operable to receive the DSRC-based wireless vehicle data from the communication unit, the onboard vehicle computer system including a non-transitory memory storing computer code that, when executed by the onboard vehicle computer system, causes the onboard vehicle computer system to: determine a modification for a velocity of the ego vehicle based on a traffic obstruction described by the DSRC-based wireless vehicle data; provide modification data describing the modification to an Advanced Driver Assistance System